Neutrinoless Double Beta Decay

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References

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Neutrinoless Double Beta Decay Experiments.
Nuclear and High Energy Physics Laboratory - Univ. Zaragoza

References

References are divided in

1 - Reviews - Experiment
2 - Reviews - Experiment - Conference Proceedings
3 - Reviews - Phenomenology
4 - Reviews - Phenomenology - Conference Proceedings
5 - Reviews - Theory
6 - Reviews - Theory - Conference Proceedings
7 - PhD Theses - Experiment
8 - Fundamental Papers - Theory
9 - Fundamental Papers - Theory - Two-Neutrino Double-Beta Decay
10 - Experiment
11 - Experiment - Conference Proceedings
12 - Experiment - PhD Theses
13 - Experiment - Detector
14 - Experiment - Detector - Conference Proceedings
15 - Experiment - Two-Neutrino Double-Beta Decay
16 - Experiment - Two-Neutrino Double-Beta Decay - Conference Proceedings
17 - Experiment - Background
18 - Theory
19 - Theory - Majoron Emission
20 - Theory - Models
21 - Theory - Nuclear Matrix Element
22 - Theory - Nuclear Matrix Element - Conference Proceedings
23 - Theory - Nuclear Matrix Element - Slides
24 - Phenomenology
25 - Phenomenology - Conference Proceedings
26 - Phenomenology - Models
27 - Phenomenology - Models - Conference Proceedings
28 - Phenomenology - Related Processes
29 - Phenomenology - Background
30 - Phenomenology - Background - Conference Proceedings
31 - Future Projects
32 - Future Projects - Conference Proceedings
33 - History - Conference Proceedings

The references in each group are listed in approximate inverted chronological order.
Click on the reference label to search it in Spires.

1 - Reviews - Experiment

[1-1]: Liquid Xenon Detectors for Particle Physics and Astrophysics, E. Aprile, T. Doke, Rev. Mod. Phys. 82 (2010) 2053-2097, arXiv:0910.4956.
[1-2]: Neutrinoless Double Beta Decay from 76Ge, Somnath Choudhury, arXiv:0704.0063, 2007.
[1-3]: Neutrino physics with cryogenic detectors, Fiorini, Ettore, Prog. Part. Nucl. Phys. 64 (2010) 241-248.
[1-4]: Next generation double-beta decay experiments: Metrics for their evaluation, Avignone, F. T., King, G. S., Zdesenko, Yu. G., New J. Phys. 7 (2005) 6. http://www.iop.org/EJ/abstract/1367-2630/7/1/006.
[1-5]: The future of double beta decay, Y. Zdesenko, Rev. Mod. Phys. 74 (2002) 663.
[1-6]: Tables Of Double Beta Decay Data - An Update, Vladimir Tretyak, Yuri Zdesenko, Atomic Data and Nuclear Data Tables 80 (2002) 83.
From the abstract: An updated version of a previous compilation of data on double beta decay is presented.... Theoretical estimates are given for comparison as well. The literature has been covered to April 2001.

2 - Reviews - Experiment - Conference Proceedings

[2-1]: Searches for neutrinoless double beta decay, B. Schwingenheuer, arXiv:1201.4916, 2012. TAUP 2011.
[2-2]: Neutrinoless double beta decay, K. Zuber, arXiv:1201.4665, 2012. Lepton-Photon 2011 Conference.
[2-3]: Double Beta Decay: Scintillators, Mark C. Chen, J. Phys. Conf. Ser. 136 (2008) 022035, arXiv:0810.3696. Neutrino 2008.
[2-4]: Double beta decay: present status, Barabash, A. S., Phys. Atom. Nucl. 73 (2010) 162-178, arXiv:0807.2948. 13th Lomonosov Conference of Elementary Particle Physics, 23-29 August, 2007, Moscow, Russia.
[2-5]: Double beta decay to the excited states: experimental review, A.S. Barabash, AIP Conf. Proc. 942 (2007) 8-12, arXiv:0710.2194. MEDEX'07.
[2-6]: Neutrinoless double beta decay experiments, K. Zuber, Acta Polonica (2006) 37, arXiv:nucl-ex/0610007. Cracow Epiphany Conference on Neutrinos and Dark Matter, 2006.
[2-7]: Introduction to the double-beta decay experimental program, Elliott, Steven R., arXiv:nucl-ex/0609024, 2006. Neutrino 2006.
[2-8]: Double beta decay experiments: past and present achievements, Alexander Barabash, arXiv:hep-ex/0608054, 2006. NEUTRINO'06 (Santa Fe, June 13-19, 2006).
[2-9]: Double beta decay experiments, A. S. Barabash, JINST 1 (2006) P07002, arXiv:hep-ex/0602037. 12-th Lomonosov Conference on Elementary Particle Physics (Moscow, August 25-31, 2005).
[2-10]: Evidence for Neutrino Mass: A Decade of Discovery, K.M. Heeger, arXiv:hep-ex/0412032, 2004. SEESAW25: International Conference on the Seesaw Mechanism and Neutrino Mass, Paris, France, 10-11 June 2004.
[2-11]: Recent Results of non-accelarator-based neutrino experiments, Yifang Wang, Int. J. Mod. Phys. A20 (2005) 5244, arXiv:hep-ex/0411028. "32nd International Conference on High Energy Physics", Aug. 16-22, 2004, Beijing, P.R. China.
[2-12]: Present and future of neutrinoless double beta decay experiments, Nucciotti, A., 2004. 5th International Workshop on the Identification of Dark Matter - IDM 2004 - 6-10 September 2004, Edinburgh, Scotland. http://www.shef.ac.uk/physics/idm2004/talks/monday/pdfs/nucciotti_angelo.pdf.
[2-13]: Determination of neutrino masses, present and future, Jean-Luc Vuilleumier, arXiv:hep-ex/0306010, 2003. XXXVIII Rencontres de Moriond, Electroweak interactions and Unified Theories, Les Arcs, March 15-22, 2003.
[2-14]: Experiments for Double-Beta Decay, Elliott, Steven R., Int. J. Mod. Phys. A18 (2003) 4097, arXiv:nucl-ex/0301011. Neutrino and Implications for Physics beyond the Standard Model.
[2-15]: Double beta decay and tritium decay experiments, Gratta, G., 2003. XXI International Symposium on Lepton Photon 2003, 11-16 August 2003, Fermi National Accelerator Laboratory, Batavia, Illinois USA. http://conferences.fnal.gov/lp2003/program/S10/gratta_s10_ungarbled.pdf.
[2-16]: The Neutrinoless Double Beta Decay: The Case for Germanium Detectors, Morales, A., Morales, J., Nucl. Phys. Proc. Suppl. 114 (2003) 141-157, arXiv:hep-ph/0211332. XXX International Meeting on Fundamental Physics, IMFP2002, February 2002, Jaca, Spain.
[2-17]: Neutrinoless double beta decay: Present and future, Cremonesi, Oliviero, Nucl. Phys. Proc. Suppl. 118 (2003) 287, arXiv:hep-ex/0210007. XXth International Conference on Neutrino Physics and Astrophysics May 25 - 30, 2002, Munich, Germany. http://neutrino2002.ph.tum.de/pages/transparencies/cremonesi.
[2-18]: Neutrinoless Double Beta Decay, Gratta, G., 2002. Topical Seminar on Frontier of Particle Physics 2002: Neutrinos and Cosmology, August 20th - 25th, 2002, Beijing, China. http://bes.ihep.ac.cn/particle/2002/presentation/G.Gratta/TALK_2.ZIP.

3 - Reviews - Phenomenology

[3-1]: The search for neutrinoless double beta decay, J.J. Gomez-Cadenas, J. Martin-Albo, M. Mezzetto, F. Monrabal, M. Sorel, arXiv:1109.5515, 2011.
[3-2]: Neutrino-less Double Beta Decay and Particle Physics, Werner Rodejohann, Int. J. Mod. Phys. E20 (2011) 1833-1930, arXiv:1106.1334.
[3-3]: Neutrinoless Double Beta-Decay, S. M. Bilenky, Lect. Notes Phys. 817 (2010) 139-158, arXiv:1001.1946.
[3-4]: Double Beta Decay, Majorana Neutrinos, and Neutrino Mass, Avignone, Frank T., III, Elliott, Steven R., Engel, Jonathan, Rev. Mod. Phys. 80 (2008) 481-516, arXiv:0708.1033.
[3-5]: Majorana Neutrino Mixing, S. M. Bilenky, J. Phys. G32 (2006) R127, arXiv:hep-ph/0511227.
[3-6]: Theory of Neutrinos: A White Paper, R.N. Mohapatra et al., Rept. Prog. Phys. 70 (2007) 1757-1867, arXiv:hep-ph/0510213.
[3-7]: Neutrinoless double beta decay and direct searches for neutrino mass, Craig Aalseth et al., arXiv:hep-ph/0412300, 2004.
[3-8]: Double beta decay, Elliott, Steven R., Engel, Jonathan, J. Phys. G30 (2004) R183, arXiv:hep-ph/0405078.
[3-9]: Neutrino masses, mixing, Majorana CP-violating phases and $(\beta\beta)_{0\nu}$ decay, S. T. Petcov, New J. Phys. 6 (2004) 109. http://www.iop.org/EJ/abstract/1367-2630/6/1/109.
[3-10]: Neutrino Oscillations, Masses and Mixing, W.M. Alberico, S.M. Bilenky, Phys. Part. Nucl. 35 (2004) 297, arXiv:hep-ph/0306239.
[3-11]: Double beta decay, Elliott, Steven R., Vogel, Petr, Ann. Rev. Nucl. Part. Sci. 52 (2002) 115, arXiv:hep-ph/0202264.
[3-12]: Double beta decay, Moe, M., Vogel, P., Ann. Rev. Nucl. Part. Sci. 44 (1994) 247-283.
[3-13]: Double beta decay and Majorana neutrino, Doi, M., Kotani, T., Takasugi, E., Prog. Theor. Phys. Suppl. 83 (1985) 1.
[3-14]: Double Beta Decay, Haxton, W. C., Stephenson, G. J., Prog. Part. Nucl. Phys. 12 (1984) 409-479.
[3-15]: Baryon number and lepton number conservation laws, Primakoff, Henry, Rosen, Peter S., Ann. Rev. Nucl. Sci. 31 (1981) 145.

4 - Reviews - Phenomenology - Conference Proceedings

[4-1]: Double Beta Decay, Steven R. Elliott, arXiv:1110.6159, 2011. Rutherford Centennial Meeting.
[4-2]: Neutrinoless Double Beta Decay in Particle Physics, Rodejohann, Werner, arXiv:1011.4942, 2010. Neutrino 2010, Athens, Greece.
[4-3]: Nuclear Double Beta Decay, Fundamental Particle Physics, Hot Dark Matter, And Dark Energy, Hans V. Klapdor-Kleingrothaus, Irina V. Krivosheina, arXiv:1006.2423, 2010. DARK 2009 - Dark Matter in Astrophysics and Particle Physics, Christchurch, New Zealand, 18-24 January 2009.
[4-4]: Long term prospects for double beta decay, K.Zuber, arXiv:1002.4313, 2010. 'European Strategy For Future Neutrino Physics' Workshop, CERN, Oct. 1-3 2009.
[4-5]: Neutrino masses and Neutrinoless Double Beta Decay: Status and expectations, Oliviero Cremonesi, arXiv:1002.1437, 2010. 'European Strategy for Future Neutrino Physics' Workshop, CERN October 1-3 2009.
[4-6]: Fundamental Symmetries and Conservation Laws, Haxton, W. C., Nucl. Phys. A827 (2009) 42c-52c, arXiv:0902.1377. PANIC08.
[4-7]: Nuclear physics aspects of double beta decay, Petr Vogel, arXiv:0807.2457, 2008. CLXX 'MEASUREMENTS OF NEUTRINO MASS' Int. School of Physics 'Enrico Fermi', Varenna, June 2008.
[4-8]: Are Neutrinos Majorana Particles?, G. Rajasekaran, arXiv:0803.4387, 2008. Workshop on Neutrinoless Double Beta Decay (NDBD07) at Tata Institute of Fundamental Research, Mumbai, October 2007.
[4-9]: Importance of neutrinoless double beta decay, Sarkar, Utpal, arXiv:0712.2690, 2007. Neutrinoless Double Beta Decay, New Delhi, 2007.
[4-10]: Double beta decay: experiments and theory review, Nucciotti, A., ECONF C070512 (2007) 025, arXiv:0707.2216. Flavor Physics and CP Violation Conference, Bled, 2007.
[4-11]: Probing Neutrino low energy and mass scales, Oliviero Cremonesi, Alessandro Melchiorri, Nucl. Phys. Proc. Suppl. 168 (2007) 383-388, arXiv:hep-ph/0701203. Neutrino Oscillation Workshop NOW2006, Otranto, Italy, September 9-16 2006.
[4-12]: Neutrinoless double beta decay, Petr Vogel, arXiv:hep-ph/0611243, 2006. TASI2006, Boulder, CO, June 2006.
[4-13]: Theory and phenomenology of neutrino mixing, Giunti, Carlo, Nucl. Phys. Proc. Suppl. 169 (2007) 309-320, arXiv:hep-ph/0611125. Tau06 (19-22 September 2006, Pisa, Italy) and HQL06 (16-20 October 2006, Munich, Germany).
[4-14]: Phenomenology of neutrinoless double beta decay, Hirsch, M., arXiv:hep-ph/0609146, 2006. Neutrino 2006, Santa Fe.
[4-15]: Absolute Neutrino Masses, Carlo Giunti, Acta Phys. Polon. B36 (2005) 3215, arXiv:hep-ph/0511131. XXIX International Conference of Theoretical Physics "Matter To The Deepest: Recent Developments In Physics Of Fundamental Interactions", 8-14 September 2005, Ustron, Poland.
[4-16]: Neutrinoless double beta-decay: Status and future, Bilenky, S. M., Phys. Atom. Nucl. 69 (2006) 2134-2140, arXiv:hep-ph/0509098. International conference "Non-Accelerator New Physics" NANP05 Dubna, Russia, June 20-25, 2005.
[4-17]: Neutrino mass and mixing parameters: A short review, G.L. Fogli et al., arXiv:hep-ph/0506307, 2005. 40th Rencontres de Moriond on Electroweak Interactions and Unified Theories, La Thuile, Aosta Valley, Italy, 5-12 Mar 2005.
[4-18]: Theoretical Prospects of Neutrinoless Double Beta Decay, S. T. Petcov, Phys. Scripta T121 (2005) 94, arXiv:hep-ph/0504166. Nobel Symposium (N 129) on Neutrino Physics, August 19 - 24, 2004, Haga Slott, Enkoping, Sweden.
[4-19]: Phenomenology of Absolute Neutrino Masses, Carlo Giunti, Nucl. Phys. Proc. Suppl. 145 (2005) 231, arXiv:hep-ph/0412148. NOW-2004, Neutrino Oscillation Workshop, 11-17 September 2004, Conca Specchiulla, Otranto, Italy. http://www.ba.infn.it/~now2004/talks/16_09_04/plen/GIUNTI.PDF.
[4-20]: 2004 TASI Lectures on Neutrino Physics, Andre de Gouvea, arXiv:hep-ph/0411274, 2004.
[4-21]: Neutrinoless Double $\beta$ -Decay, S. M. Bilenky, arXiv:hep-ph/0403245, 2004. " Rencontres de Physique de La Vallee d'Aoste", La Thuile, Aosta Valley, February 29-March 6, 2004.
[4-22]: Neutrinos: "...annus mirabilis", A. Yu. Smirnov, arXiv:hep-ph/0402264, 2004. 2nd Int. Workshop on Neutrino oscillations in Venice (NOVE) December 3-5, 2003, Venice, Italy.
[4-23]: $\mathbf{\beta\beta_{0\nu}}$ Decay Phenomenology, Carlo Giunti, 2004. Summary of the IPPP Workshop on Neutrinoless Double Beta Decay Phenomenology, 21-23 April 2004, Grey College, Durham, UK. http://www.nu.to.infn.it/slides/2004/giunti-2004-ip3.pdf.
[4-24]: Double Beta Decay and the Absolute Neutrino Mass Scale, Carlo Giunti, Aip Conf. Proc. 721 (2004) 170, arXiv:hep-ph/0308206. NuFact 03, 5th International Workshop on Neutrino Factories and Superbeams, 5-11 June 2003, Columbia University, New York. http://www.cap.bnl.gov/nufact03/WG1/6june/giunti.pdf.
[4-25]: Neutrino Masses, Mixing and Neutrinoless Double-Beta Decay, S. Pascoli, S. T. Petcov, arXiv:hep-ph/0308034, 2003. Xth International Workshop on Neutrino Telescopes, March 11 - 14, 2003, Venice, Italy.
[4-26]: Neutrino oscillations in the framework of the tree-neutrino mixing, Bilenky, S. M., arXiv:hep-ph/0307186, 2003. Ist Yamada Symposium Om neutrinos and Dark Matter in Nuclear Physics, June 9-14, 2003, Nara, Japan.
[4-27]: Neutrino-less double beta decay: Experimentum crucis of neutrino physics, Sujkowski, Z., Acta Phys. Polon. B34 (2003) 2207-2220. 37th Zakopane School of Physics: Trends in Nuclear Physics, Zakopane, Poland, 3-10 Sep 2002.

5 - Reviews - Theory

[5-1]: The Neutrinoless double beta decay from a modern perspective, Vergados, J. D., Phys. Rep. 361 (2002) 1-56, arXiv:hep-ph/0209347.
[5-2]: Double beta decay, Faessler, Amand, Simkovic, Fedor, J. Phys. G24 (1998) 2139-2178, arXiv:hep-ph/9901215.
[5-3]: Weak-interaction and nuclear-structure aspects of nuclear double beta decay, Suhonen, J., Civitarese, O., Phys. Rep. 300 (1998) 123-214.
[5-4]: Double beta decay, Tomoda, T., Rept. Prog. Phys. 54 (1991) 53-126.

6 - Reviews - Theory - Conference Proceedings

[6-1]: Are neutrinos their own antiparticles?, Kayser, Boris, J. Phys. Conf. Ser. 173 (2009) 012013, arXiv:0903.0899. Carolina International Symposium on Neutrino Physics.
[6-2]: Consensus Report of a Workshop on "Matrix elements for Neutrinoless Double Beta Decay", K. Zuber, arXiv:nucl-ex/0511009, 2005. "Matrix elements for Neutrinoless Double Beta Decay", IPPP Durham (UK), 23-24 May 2005.
[6-3]: Physics of Massive Neutrinos, J. W. F. Valle, Nucl. Phys. Proc. Suppl. 149 (2005) 3, arXiv:hep-ph/0410103. Sixth International Conf. on Neutrino Factories and SuperBeams (NuFact04) Osaka, Japan, July 26-August 1, 2004.
[6-4]: Neutrinoless Double Beta Decay in Theories Beyond the Standard Model, J.D. Vergados, Nucl. Phys. Proc. Suppl. 143 (2005) 211, arXiv:hep-ph/0409319. XXIst Int. Conf. on Neutrino Physics and Astrophysics, June 13-19, College de France, Paris, France.
[6-5]: Neutrino Physics - Theory, W. Grimus, Lect. Notes Phys. 629 (2004) 169, arXiv:hep-ph/0307149. 41 Internationale Universitatswochen fur Theoretische Physik, Flavour Physics, Schladming, Styria, Austria, February 22-28, 2003.

7 - PhD Theses - Experiment

[7-1]: Measurement of the double beta decay half-life of Nd-150 and search for neutrinoless decay modes with NEMO-3 detector, Nasim Fatemi-Ghomi, arXiv:0905.0822, 2009.

8 - Fundamental Papers - Theory

[24-112]: Dirac and pseudodirac neutrinos and neutrinoless double beta decay, Nieves, Jose F., Phys. Lett. B147 (1984) 375.
[8-2]: Can the neutrinoless double beta decay take place in the case of Dirac neutrinos?, Takasugi, Eiichi, Phys. Lett. B149 (1984) 372.
[8-3]: CPT, CP, and C phases and their effects in Majorana particle processes, Kayser, Boris, Phys. Rev. D30 (1984) 1023.
[8-4]: Some implications of the CP invariance for mixing of Majorana neutrinos, Bilenky, Samoil M., Nedelcheva, N. P., Petcov, S. T., Nucl. Phys. B247 (1984) 61.
[8-5]: Neutrinoless double-beta decay in SU(2) x U(1) theories, Schechter, J., Valle, J. W. F., Phys. Rev. D25 (1982) 2951.
[8-6]: CP properties of Majorana neutrinos and double beta decay, Wolfenstein, Lincoln, Phys. Lett. B107 (1981) 77.
[8-7]: Superweak interactions and double beta decay, Pontecorvo, B., Phys. Lett. B26 (1968) 630-632.
[8-8]: On transition probabilities in double beta-disintegration, W.H. Furry, Phys. Rev. 56 (1939) 1184-1193.

9 - Fundamental Papers - Theory - Two-Neutrino Double-Beta Decay

[9-1]: Double beta-disintegration, Goeppert-Mayer, M., Phys. Rev. 48 (1935) 512-516. http://prola.aps.org/pdf/PR/v48/i6/p512_1.

10 - Experiment

[10-1]: Measurement of the Double-Beta Decay Half-life of ^{136}Xe in KamLAND-Zen, (KamLAND-Zen), arXiv:1201.4664, 2012.
[10-2]: 130Te Neutrinoless Double-Beta Decay with CUORICINO, Andreotti, E. et al. (CUORICINO), Astropart. Phys. 34 (2011) 822-831, arXiv:1012.3266.
[10-3]: Search for beta plus/EC double beta decay of 120Te, E. Andreotti et al. (CUORICINO), Astropart. Phys. 34 (2011) 643-648, arXiv:1011.4811.
[10-4]: Measurement of the Double Beta Decay Half-life of 150-Nd and Search for Neutrinoless Decay Modes with the NEMO-3 Detector, J. Argyriades (NEMO), Phys. Rev. C80 (2009) 032501, arXiv:0810.0248.
[10-5]: Results from the CUORICINO neutrinoless double beta decay experiment, C. Arnaboldi et al. (CUORICINO), Phys. Rev. C78 (2008) 035502, arXiv:0802.3439.
From the abstract: ... an upper limit on the effective mass between 0.19 and 0.68 eV when analyzed with the many published nuclear structure calculations. In the context of these nuclear models, the values fall within the range corresponding to the claim of evidence of neutrinoless double beta decay by H.V. Klapdor-Kleingrothaus et al.
[10-6]: Q value of the 100Mo Double-Beta Decay, Rahaman, S. et al., Phys. Lett. B662 (2008) 111-116, arXiv:0712.3337.
[10-7]: A search for various double beta decay modes of tin isotopes, J. Dawson, R. Ramaswamy, C. Reeve, J. R. Wilson, K. Zuber, Nucl. Phys. A799 (2008) 167-180, arXiv:0709.4342.
[10-8]: First results on double beta decay modes of Cd, Te and Zn isotopes with the COBRA experiment, Bloxham, T. et al. (COBRA), Phys. Rev. C76 (2007) 025501, arXiv:0707.2756.
[10-9]: Limits on different Majoron decay modes of $^{100}Mo$ and $^{82}\text{Se}$ for neutrinoless double beta decays in the NEMO-3 experiment, R. Arnold et al. (NEMO), Nucl. Phys. A765 (2006) 483, arXiv:hep-ex/0601021.
[10-10]: The evidence for the observation of $0\nu\beta\beta$ decay: The identification of $0\nu\beta\beta$ events from the full spectra, Klapdor-Kleingrothaus, H. V., Krivosheina, I. V., Mod. Phys. Lett. A21 (2006) 1547-1566.
From the abstract: Two different methods of pulse shape analysis have been used to select potential $0\nu\beta\beta$ events from the $\gamma$ -background. Both methods lead to selections of events at $Q_{\beta\beta}$ with almost no $\gamma$ -background. The observed line at $Q_{\beta\beta}$ is identified as a $0\nu\beta\beta$ signal. It has a confidence level of more than $6\sigma$ .
[10-11]: First results of the search of neutrinoless double beta decay with the NEMO 3 detector, R. Arnold et al. (NEMO), Phys. Rev. Lett. 95 (2005) 182302, arXiv:hep-ex/0507083.
From the abstract: After 389 effective days of data collection from February 2003 until September 2004 (Phase I), no evidence for neutrinoless double beta decay was found from ~7 kg of $^{100}Mo$ and ~1 kg of $^{82}\text{Se}$ . The corresponding lower limits for the half-lives are $4.6 \times 10^{23}$ years for $^{100}Mo$ and $1.0 \times 10^{23}$ years for $^{82}\text{Se}$ (90% C.L.). Depending on the nuclear matrix elements calculation, limits for the effective Majorana neutrino mass are $\langle m\rangle < 0.7-2.8 eV$ for $^{100}\text{Mo}$ and $\langle m\rangle < 1.7-4.9 eV$ for $^{82}\text{Se}$ .
[10-12]: A New Limit on the Neutrinoless DBD of 130Te, Arnaboldi, C. et al., Phys. Rev. Lett. 95 (2005) 142501, arXiv:hep-ex/0501034.
[10-13]: Study of 2b-decay of Mo-100 and Se-82 using the NEMO3 detector, NEMO Collaboration et al. (the NEMO), Jetp Lett. 80 (2004) 377, arXiv:hep-ex/0410021.
[10-14]: Search for neutrinoless double beta decay with enriched 76Ge in Gran Sasso 1990-2003, H.V. Klapdor-Kleingrothaus, I.V. Krivosheina, A. Dietz, O. Chkvorets, Phys. Lett. B586 (2004) 198-212, arXiv:hep-ph/0404088.
[10-15]: Search For Neutrinoless Double Beta Decay With Enriched 76Ge 1990-2003 - HEIDELBERG-MOSCOW-Experiment, H.V. Klapdor-Kleingrothaus et al., arXiv:hep-ph/0404062, 2004. INFN, Laboratori Nazionali del Gran Sasso, Annual Report 2003 (2004).
[10-16]: On the possibility to search for $2\beta$ decay of initially unstable ( $\alpha / \beta$ radioactive) nuclei, Tretyak, V. I., Danevich, F. A., Nagorny, S. S., Zdesenko, Yu. G., Europhys. Lett. 69 (2005) 41-47, arXiv:nucl-ex/0404016.
[10-17]: Data acquisition and analysis of the 76Ge double beta experiment in Gran Sasso 1990-2003, H.V. Klapdor-Kleingrothaus, A. Dietz, O. Chkvorez, I.V. Krivosheina, Nucl. Instrum. Meth. A522 (2004) 371-406, arXiv:hep-ph/0403018.
From the abstract: the confidence level for the neutrinoless signal has been improved.
From the article: we confirm, with 4.2σ (99.9973% c.l.) probability, our claim from 2001 [,,10-32,,] of first evidence for the neutrinoless double beta decay mode.
...
Using the nuclear matrix element from Refs.[21-50,21-51], we conclude from the half-life given above the effective mass $\langle m \rangle$ to be $\langle m \rangle = (0.2-0.6) \mathrm{eV}$ (99.73% c.l.) with the best value of 0.4 eV.
...
Allowing conservatively for an uncertainty of the nuclear matrix element of ±50%, the range for the effective mass may widen to $\langle m \rangle = (0.1-0.9) \mathrm{eV}$ (99.73% c.l.).
[10-18]: From nuclear physics to physics beyond the standard model: first evidence for lepton number violation and the Majorana character of neutrinos, Klapdor-Kleingrothaus, H. V., Int. J. Mod. Phys. D13 (2004) 2107-2126. http://www.worldscinet.com/ijmpd/13/preserved-docs/1310/S0218271804006656.pdf.
[10-19]: Measurement of the 214Bi spectrum in the energy region around the Q-value of 76Ge neutrinoless double-beta decay, H.V. Klapdor-Kleingrothaus, O. Chkvorez, I.V. Krivosheina, C. Tomei, Nucl. Instrum. Meth. A511 (2003) 335, arXiv:hep-ph/0309157.
[10-20]: Results of the experiment on investigation of Germanium-76 double beta decay. Experimental data of Heidelberg-Moscow collaboration November 1995 - August 2001, A.M. Bakalyarov et al. (C03-06-23.1), Phys. Part. Nucl. Lett. 2 (2005) 77, arXiv:hep-ex/0309016.
[10-21]: Neutrinoless double beta decay: Status of evidence, Klapdor-Kleingrothaus, H. V., Dietz, A., Krivosheina, I. V., Found. Phys. 32 (2002) 1181-1223, arXiv:hep-ph/0302248.
[10-22]: One Year of Evidence for Neutrinoless Double Beta Decay, H.V. Klapdor-Kleingrothaus, arXiv:hep-ph/0302237, 2003.
[10-23]: A Search for various Double Beta Decay Modes of Cd, Te and Zn Isotopes, H. Kiel, D. Munstermann, K. Zuber, Nucl. Phys. A723 (2003) 499, arXiv:nucl-ex/0301007.
[10-24]: Two-neutrino 2beta decay of Cd-116 and new half-life limits on 2beta decay of W-180 and W-186, Danevich, F. A. et al., Nucl. Phys. A717 (2003) 129-145.
[10-25]: A Calorimetric Search on Double Beta Decay of 130Te, Arnaboldi, C. et al., Phys. Lett. B557 (2003) 167, arXiv:hep-ex/0211071.
[10-26]: EXO: the Enriched Xenon Observatory for Double Beta Decay, EXO Collaboration (EXO), eConf C020620 (2002) THAP11, arXiv:hep-ph/0210186.
[10-27]: Reply to the comment on "Evidence for neutrinoless double beta decay". (Mod. Phys. Lett. A16 (2001) 2409), Harney, H. L., arXiv:hep-ph/0205293, 2002.
[10-28]: Reply to a comment of article "Evidence for neutrinoless double beta decay", Klapdor-Kleingrothaus, H. V., arXiv:hep-ph/0205228, 2002.
[10-29]: The IGEX Ge-76 neutrinoless double-beta decay experiment: Prospects for next generation experiments, Aalseth, C. E. et al. (IGEX), Phys. Rev. D65 (2002) 092007, arXiv:hep-ex/0202026.
Comment: Lower bound for the neutrinoless double-beta decay half-life of ⁷⁶Ge: T_1/2 > 1.57 × 10²⁵ y at 90% CL. The corresponding upper bound for the effective neutrino mass is <m> < 0.33-1.35 eV. This bound excludes part of the allowed range claimed in []. (C.G.).
[10-30]: Comment on "Evidence for Neutrinoless Double Beta Decay", Aalseth, C. E. et al., Mod. Phys. Lett. A17 (2002) 1475-1478, arXiv:hep-ex/0202018.
Comment: Critics of prominent members of the Double Beta Decay community to the claim in []. (C.G.).
[10-31]: Evidence for Neutrinoless Double Beta Decay, Klapdor-Kleingrothaus, H. V., Dietz, A., Harney, H. L., Krivosheina, I. V., Mod. Phys. Lett. A16 (2001) 2409-2420, arXiv:hep-ph/0201231.
Comment: Evidence in favor of the observation of neutrinoless double-beta decay of ⁷⁶Ge is claimed, with T_1/2 = (0.8-18.3) × 10²⁵ y at 95% CL and best value T_1/2 = 1.5 × 10²⁵ y. The corresponding effective neutrino mass is <m> = 0.11-0.56 eV and best value <m> = 0.39 eV. (C.G.).
[10-32]: First evidence for neutrinoless double beta decay, Klapdor-Kleingrothaus, H. V., Dietz, A., Krivosheina, I. V., Part. Nucl. Lett. 110 (2002) 57-79.
[10-33]: Has neutrinoless double beta decay of Ge-76 been really observed?, Zdesenko, Yu. G., Danevich, F. A., Tretyak, V. I., Phys. Lett. B546 (2002) 206-215.
[10-34]: Latest results from the HEIDELBERG-MOSCOW double beta decay experiment, Klapdor-Kleingrothaus, H. V. et al., Eur. Phys. J. A12 (2001) 147-154.
Comment: Lower bound for the neutrinoless double-beta decay half-life of ⁷⁶Ge: T_1/2 > 1.9 × 10²⁵ y at 90% CL. The corresponding upper bound for the effective neutrino mass is <m> < 0.35 eV. (C.G.).
[10-35]: Double beta decay of Mo-100, Ashitkov, V. D. et al., Part. Nucl. Lett. 106 (2001) 69-73.
[10-36]: Limits on the Majorana neutrino mass and right-handed weak currents by neutrinoless double beta decay of Mo-100, Ejiri, H. et al., Phys. Rev. C63 (2001) 065501.
[10-37]: Evidence of the double beta decay of zirconium-96 measured in 1.8 X 109 year-old zircons, Wieser, Michael E., De Laeter, John R., Phys. Rev. C64 (2001) 024308.
[10-38]: Quest for double beta decay of Gd-160 and Ce isotopes, Danevich, F. A., Kobychev, V. V., Ponkratenko, O. A., Tretyak, V. I., Zdesenko, Yu. G., Nucl. Phys. A694 (2001) 375-391, arXiv:nucl-ex/0011020.
[10-39]: High sensitivity 2beta decay study of Cd-116 and Mo-100 with the BOREXINO counting test facility (CAMEO project), Bellini, G. et al., Eur. Phys. J. C19 (2001) 43-55, arXiv:nucl-ex/0007012.
[10-40]: Double beta decay: Theory, experiment, and implications, Vogel, Petr, arXiv:nucl-th/0005020, 2000.
[10-41]: New results of Cd-116 double beta decay study with Cd- 116_WO-4 scintillators, Danevich, F. A. et al., Phys. Rev. C62 (2000) 045501, arXiv:nucl-ex/0003001.
[10-42]: New experimental results on double beta decay of Te-130, Alessandrello, A. et al., Phys. Lett. B486 (2000) 13-21.
[10-43]: Search for double beta decay of Ca-48 in the TGV experiment, Brudanin, V. B. et al., Phys. Lett. B495 (2000) 63-68.
[10-44]: Results of a search for the two neutrino double beta decay of Xe-136 with proportional counters, Gavriljuk, Ju. M., Kuzminov, V. V., Osetrova, N. Ya., Ratkevich, S. S., Phys. Rev. C61 (2000) 035501.
[10-45]: Limits on different Majoron decay modes of Mo-100, Cd-116, Se-82 and Zr-96 for neutrinoless double beta decays in the NEMO-2 experiment, Dassie, D. et al., Nucl. Phys. A678 (2000) 341-352. CERN Library Record.
[10-46]: High sensitivity quest for Majorana neutrino mass with the BOREXINO counting test facility, Bellini, G. et al., Phys. Lett. B493 (2000) 216-228.
[10-47]: Search for beta beta decay in Xe-136: New results from the Gotthard experiment, Luscher, R. et al., Phys. Lett. B434 (1998) 407-414.
[10-48]: Final report on the search for neutrinoless double beta decay of Ge-76 from the Gotthard underground experiment, Reusser, D. et al., Phys. Rev. D45 (1992) 2548-2551.
[10-49]: Double beta decay and dark matter in the Gotthard germanium experiment, Treichel, M. et al., J. Phys. G17 (1991) S193-S201.
[10-50]: First 0 nu halflife limit from the Gotthard xenon time projection chamber, Wong, H. T. et al., J. Phys. G17 (1991) S165-S172.

11 - Experiment - Conference Proceedings

[11-1]: Results of the NEMO-3 Double Beta Decay Experiment, Mathieu Bongrand (NEMO-3), arXiv:1105.2435, 2011. 22nd Rencontres de Blois, 2010.
[11-2]: A Search for Neutrinoless Double Beta Decay: from NEMO-3 to SuperNEMO, Yu.A. Shitov (SuperNEMO), arXiv:1006.4775, 2010. Moriond EW 2010.
[11-3]: The Search for Neutrinoless Double Beta Decay in CUORE, Ejzak, L. M. et al. (CUORE), arXiv:0910.2994, 2009. DPF-2009, Detroit, Jul. 27-31.
[11-4]: Search for neutrinoless double beta decay with NEMO 3 experiment, Zornitza Daraktchieva, Nucl. Phys. A827 (2009) 495c-497c, arXiv:0901.2720. PANIC08.
[11-5]: Results of NEMO 3 and status of SuperNEMO, Ladislav Vala (NEMO), Nucl. Phys. Proc. Suppl. 188 (2009) 62-64, arXiv:0901.0473. NOW 2008.
[11-6]: Results from NEMO 3, R. L. Flack et al. (NEMO), J. Phys. Conf. Ser. 136 (2008) 022032, arXiv:0810.5497. Neutrino08.
[11-7]: First results from the NEMO Phase 1 experiment, Amore, Isabella (NEMO), Nucl. Instrum. Meth. A602 (2009) 68-71, arXiv:0810.3119. VLVNT08.
[11-8]: Neutrinoless double beta decay search with the NEMO 3 experiment, Nasteva, Irina et al. (NEMO), AIP Conf. Proc. 1078 (2009) 332-334, arXiv:0810.0637. SUSY08.
[11-9]: The Nemo-3 Experiment and the Supernemo Project, Simard, Laurent (NEMO), arXiv:0810.0533, 2008. ICHEP 08.
[11-10]: Cryogenic Double Beta Decay Experiments: CUORE and CUORICINO, Maruyama, Reina, Collaboration, for the CUORE (CUORE), arXiv:0809.3840, 2008. 22nd International Conference on Neutrino Physics and Astrophysics (Neutrino 2006), Santa Fe, New Mexico, 13-19 Jun 2006.
[11-11]: Dark Matter Density in Disk Galaxies, J. A. Sellwood, arXiv:0807.1973, 2008. XXth Rencontres de Blois, 18th - 23rd May 2008, Blois (France).
[11-12]: Results from the NEMO 3 experiment, Ladislav Vala (NEMO), arXiv:0710.5604, 2007. 10th ICATPP Conference (Como, Italy, 8 - 12 October 2007).
[11-13]: Search for Neutrinoless Double Beta Decay with NEMO 3 and SuperNEMO, Stefan Soldner-Rembold (NEMO 3), J. Phys. Conf. Ser. 110 (2008) 082019, arXiv:0710.4156. 2007 Europhysics Conference on High Energy Physics, in Manchester, England, 19-25 July 2007.
[11-14]: Results on Dark Matter and beta beta decay modes by DAMA at Gran Sasso, Bernabei, R., arXiv:0704.3543, 2007. Neutrinoless Double Beta Decay (NDBD07), Ahmedabad (India), February 2007.
[11-15]: NEMO-3 double beta decay experiment: lastest results, A.S. Barabash, arXiv:hep-ex/0610025, 2006. XXXIII International Conference on High Energy Physics (Moscow, July 26 - August 02, 2006).
[11-16]: Results of the NEMO3 experiment, J.S Ricol, arXiv:hep-ex/0605104, 2006. Moriond 2006 EW conference.
[11-17]: NEMO-3 and SuperNEMO double beta decay experiments, A. S. Barabash et al. (NEMO), J. Phys. Conf. Ser. 39 (2006) 347-349, arXiv:hep-ex/0602011. TAUP 2005 (Zaragoza, Spain, September 10-14 2005).
[11-18]: Lessons after 3 years of running GENIUS-TF in Gran Sasso, Krivosheina, I. V., Klapdor-Kleingrothaus, H. V. (Heidelberg-Moscow and GENIUS), Phys. Scripta T127 (2006) 52-53. 2nd Scandanavian Neutrino Workshop (SNOW 2006), Stockholm, Sweden, 2-6 May 2006.
[11-19]: First Evidence for Neutrinoless Double Beta Decay - and World Status of Double Beta Experiments, Klapdor-Kleingrothaus, Hans Volker, arXiv:hep-ph/0512263, 2005. XI Int. Work. on Neutrino Telescopes, Febr. 22-25, 2005, Venice, Italy.
[11-20]: Search for neutrinoless double beta decay with the NEMO-3 detector : First results, Lalanne, D., arXiv:hep-ex/0509005, 2005. High Energy Physics ICHEP 2004.
[11-21]: Cuoricino last results and Cuore R&D, S. Capelli (CUORE), arXiv:hep-ex/0505045, 2005. Rencontres the Moriond: 2005 Electroweak session.
[11-22]: First evidence for neutrinoless double beta decay, with enriched Ge-76 in Gran Sasso 1990-2003, Klapdor-Kleingrothaus, H. V., Nucl. Phys. Proc. Suppl. 143 (2005) 229-232.
[11-23]: Search for neutrinoless double beta decay with the NEMO-3 detector: first results, Xavier Sarazin, Nucl. Phys. Proc. Suppl. 143 (2005) 221, arXiv:hep-ex/0412012. 21st International Conference on Neutrino Physics and Astrophysics, (Neutrino 2004) 14-19 June 2004, College de France - Paris.
[11-24]: Search for neutrinoless double beta decay with enriched ${}^{76}Ge$ in Gran Sasso, H.V. Klapdor-Kleingrothaus, 2004. Neutrino 2004, 13-19 June 2004, Paris, France. http://neutrino2004.in2p3.fr/slides/thursday/Klapdor/klapdor.html.
[11-25]: Results of Cuoricino and perspectives for CUORE, E. Fiorini, 2004. Neutrino 2004, 13-19 June 2004, Paris, France. http://neutrino2004.in2p3.fr/slides/thursday/fiorini.ppt.
[11-26]: NEMO3 : first results, X. Sarazin, 2004. Neutrino 2004, 13-19 June 2004, Paris, France. http://neutrino2004.in2p3.fr/slides/thursday/sarazin.ppt.
[11-27]: Status of Evidence for Neutrinoless Double Beta Decay, and the Future: GENIUS and GENIUS-TF, Klapdor-Kleingrothaus, H. V., arXiv:hep-ph/0307330, 2003. NOON 2003, Japan, Kanazawa, February 2003.
[11-28]: Status report on the NEMO3 experiment, Anne-Isabelle Etienvre, arXiv:hep-ex/0306027, 2003.
[11-29]: To be or not to Be? - First Evidence for Neutrinoless Double Beta Decay, H.V. Klapdor-Kleingrothaus, Int. J. Mod. Phys. A18 (2003) 4113, arXiv:hep-ph/0303217. International Conference "Neutrinos and Implications for Physics Beyond the Standard Model", Oct. 11-13, 2002, Stony Brook, USA.
[11-30]: First Evidence for Neutrinoless Double Beta Decay, H.V. Klapdor-Kleingrothaus, Found. Phys. 33 (2003) 813, arXiv:hep-ph/0302234. Zacatecas Forum in Physics 2002, 11-13 MAY, 2002, Zacatecas, Mexico.
[11-31]: Search for Neutrino Mass and Dark Matter in Underground Experiments, H.V. Klapdor-Kleingrothaus, arXiv:hep-ph/0211033, 2002. International Sixth School "Non-Accelerator Astroparticle Physics", ICTP, Trieste, Italy, 9-20 July 2001.
[11-32]: Start-up of the NEMO3 experiment, F. Piquemal (NEMO), arXiv:hep-ex/0205006, 2002. XXXVIth Rencontres de Moriond, Les Arcs(2002).
[11-33]: New results of Cd-116 beta beta decay experiment, Bizzeti, P. G. et al., Nucl. Phys. Proc. Suppl. 110 (2002) 389-391. TAUP 2001.

12 - Experiment - PhD Theses

[12-1]: Search for double beta decay with HPGe detectors at the Gran Sasso underground laboratory, Chkvorets, Oleg, arXiv:0812.1206, 2008.

13 - Experiment - Detector

[13-1]: Optimizing the energy threshold of light detectors coupled to luminescent bolometers, G. Piperno, S. Pirro, M. Vignati, JINST 6 (2011) P10005, arXiv:1107.5679.
[13-2]: Discrimination of alpha and beta/gamma interactions in a TeO bolometer, J.W. Beeman et al., arXiv:1106.6286, 2011.
[13-3]: GELATIO: a general framework for modular digital analysis of high-purity Ge detector signals, M. Agostini, L. Pandola, P. Zavarise, O. Volynets, JINST 6 (2011) P08013, arXiv:1106.1780.
[13-4]: Rejection of Surface Background in Thermal Detectors, Carlo Bucci, Paolo Gorla, Wolfgang Seidel, arXiv:1103.5296, 2011.
[13-5]: Micromegas readouts for double beta decay searches, S. Cebrian et al., JCAP 1010 (2010) 010, arXiv:1009.1827.
[13-6]: Pulse shape discrimination studies with a Broad-Energy Germanium detector for signal identification and background suppression in the GERDA double beta decay experiment, Budjas, Dusan, Heider, Marik Barnabe, Chkvorets, Oleg, Khanbekov, Nikita, Schonert, Stefan, JINST 4 (2009) P10007, arXiv:0909.4044.
[13-7]: Large-Mass Ultra-Low Noise Germanium Detectors: Performance and Applications in Neutrino and Astroparticle Physics, P.S. Barbeau, J.I. Collar, O. Tench, JCAP 0709 (2007) 009, arXiv:nucl-ex/0701012.
[13-8]: Development of tin-loaded liquid scintillator for the double beta decay experiment, Hwang, M. J. et al. (KIMS), Nucl. Instrum. Meth. A570 (2007) 454-458.
[13-9]: Pulse shape analysis in segmented detectors as a technique for background reduction in Ge double-beta decay experiments, S. R. Elliott et al., Nucl. Instrum. Meth. A558 (2006) 504, arXiv:nucl-ex/0509026.
[13-10]: Pulse Shape Discrimination in the IGEX Experiment, D. Gonzalez et al., Nucl. Instrum. Meth. A515 (2003) 634, arXiv:hep-ex/0302018.

14 - Experiment - Detector - Conference Proceedings

[14-1]: Solar Neutrino Background in Neutrinoless double beta-decay searching for experiments, Alexander A. Klimenko, arXiv:hep-ph/0407156, 2004. LIV International Meeting on Nuclear Spectroscopy and Nuclear Structure "NUCLEUS-2004" June 22-25, 2004, Belgorod, Russia.

15 - Experiment - Two-Neutrino Double-Beta Decay

[15-1]: Observation of Two-Neutrino Double-Beta Decay in Xe-136 with EXO-200, N. Ackerman et al. (EXO-200), Phys. Rev. Lett. 107 (2011) 212501, arXiv:1108.4193.
[15-2]: New Results for Double-Beta Decay of Mo-100 to Excited Final States of Ru-100 Using the TUNL-ITEP Apparatus, Kidd, M. F., Esterline, J. H., Tornow, W., Barabash, A. S., Umatov, V. I., Nucl. Phys. A821 (2009) 251-261, arXiv:0902.4418.
[15-3]: Measurement of double beta decay of 100Mo to excited states in the NEMO 3 experiment, R. Arnold et al. (NEMO), Nucl. Phys. A781 (2007) 209-226, arXiv:hep-ex/0609058.
[15-4]: Two-neutrino 2beta decay of Cd-116 and new half-life limits on 2beta decay of W-180 and W-186, Danevich, F. A. et al., Nucl. Phys. A717 (2003) 129-145.
[15-5]: Search for beta and beta beta decays in Ca-48, Bernabei, R. et al., Nucl. Phys. A705 (2002) 29-39.

16 - Experiment - Two-Neutrino Double-Beta Decay - Conference Proceedings

[16-1]: Search for \beta^+EC and ECEC processes in ^{74}Se, A.S. Barabash, Ph. Hubert, A. Nachab, V. Umatov, Nucl. Phys. A785 (2007) 371-380, arXiv:hep-ex/0610046. 2-nd Symposium on "Neutrino and Dark Matter in Nuclear Physics" (Paris, September 3-9, 2006).

17 - Experiment - Background

[17-1]: Low energy fast events from radon progenies at the surface of a CsI(Tl) scintillator, S.C. Kim et al., arXiv:1108.4353, 2011.
[17-2]: Study of the Production of Radioactive Isotopes through Cosmic Muon Spallation in KamLAND, Abe, S. et al. (KamLAND), Phys. Rev. C81 (2010) 025807, arXiv:0907.0066.

18 - Theory

[18-1]: Localizability of Tachyonic Particles and Neutrinoless Double Beta Decay, U. D. Jentschura, B. J. Wundt, arXiv:1201.0359, 2012.
[18-2]: On the Quantitative Impact of the Schechter-Valle Theorem, Duerr, Michael, Lindner, Manfred, Merle, Alexander, JHEP 06 (2011) 091, arXiv:1105.0901.
[18-3]: Vanishing Effective Mass of the Neutrinoless Double Beta Decay?, Zhi-zhong Xing, Phys. Rev. D68 (2003) 053002, arXiv:hep-ph/0305195.
[18-4]: Manifest CP Violation from Majorana Phases, Andre de Gouvea, Boris Kayser, Rabindra Mohapatra, Phys. Rev. D67 (2003) 053004, arXiv:hep-ph/0211394.
[18-5]: Unitarity triangles and geometrical description of CP violation with Majorana neutrinos, Aguilar-Saavedra, J. A., Branco, G. C., Phys. Rev. D62 (2000) 096009, arXiv:hep-ph/0007025.
[18-6]: Neutrinoless double beta decay and CP violation, O'Donnell, Patrick J., Sarkar, Utpal, Phys. Rev. D52 (1995) 1720-1721, arXiv:hep-ph/9305338.
[18-7]: Possible consequences of the Zeno effect on nuclear double beta decay and a bound on $m_{\nu}$ , Levitan, Jacob, Horwitz, L. P., Europhys. Lett. 9 (1989) 761.
[18-8]: Minimal rephasing invariant CP violating parameters with Dirac and Majorana fermions, Nieves, Jose F., Pal, Palash B., Phys. Rev. D36 (1987) 315.
[18-9]: Time scale of short time deviations from exponential decay, Grotz, K., Klapdor-Kleingrothaus, H. V., Phys. Rev. C30 (1984) 2098-3000.
[24-112]: Dirac and pseudodirac neutrinos and neutrinoless double beta decay, Nieves, Jose F., Phys. Lett. B147 (1984) 375.
[18-11]: Effects of light and heavy majorana neutrinos in neutrinoless double beta decay, Halprin, A., Petcov, S. T., Rosen, S. P., Phys. Lett. B125 (1983) 335.
[18-12]: CP properties of the leptonic sector for Majorana neutrinos, Bernabeu, J., Pascual, P., Nucl. Phys. B228 (1983) 21.
[18-13]: Physical processes involving Majorana neutrinos, Li, L. F., Wilczek, Frank, Phys. Rev. D25 (1982) 143.
[18-14]: Neutrinoless double beta decay and muonium - anti-muonium transitions, Halprin, A., Phys. Rev. Lett. 48 (1982) 1313-1316.
[18-15]: Nucleon resonance transitions in neutrinoless double beta decay and majorana neutrinos, Halprin, A., Phys. Rev. D24 (1981) 2988-2989.
[18-16]: Double - beta decay and a massive majorana neutrino, Halprin, A., Minkowski, P., Primakoff, H., Rosen, S. P., Phys. Rev. D13 (1976) 2567.

19 - Theory - Majoron Emission

[19-1]: A New class of Majoron emitting double beta decays, Burgess, C. P., Cline, J. M., Phys. Rev. D49 (1994) 5925-5944, arXiv:hep-ph/9307316.
[19-2]: Constraints from nucleosynthesis and SN1987A on majoron emitting double beta decay, Chang, Sanghyeon, Choi, Kiwoon, Phys. Rev. D49 (1994) 12-15, arXiv:hep-ph/9303243.
[19-3]: The neutrinoless double beta decay with majoron emission, Doi, M., Kotani, T., Takasugi, E., Phys. Rev. D37 (1988) 2575.

20 - Theory - Models

[20-1]: Sterile Neutrinos for Warm Dark Matter and the Reactor Anomaly in Flavor Symmetry Models, James Barry, Werner Rodejohann, He Zhang, arXiv:1110.6382, 2011.
[20-2]: Pion dominance in RPV SUSY induced neutrinoless double beta decay, Amand Faessler, Thomas Gutsche, Sergey Kovalenko, Fedor Simkovic, Phys. Rev. D77 (2008) 113012, arXiv:0710.3199.
[20-3]: The Elements of the Neutrino Mass Matrix: Allowed Ranges and Implications of Texture Zeros, A. Merle, W. Rodejohann, Phys. Rev. D73 (2006) 073012, arXiv:hep-ph/0603111.

21 - Theory - Nuclear Matrix Element

[21-1]: Shell Model description of the beta beta decay of 136Xe, Etienne Caurier, Frederic Nowacki, Alfredo Poves, arXiv:1112.5039, 2011.
[21-2]: Evaluation of the resonance enhancement effect in neutrinoless double-electron capture in 152Gd, 164Er and 180W atoms, Dong-Lianf Fang et al., arXiv:1111.6862, 2011.
[21-3]: Transition Operators Entering Neutrinoles Double Electron Capture to Excited Nuclear States, J.D. Vergados, Phys. Rev. C84 (2011) 044328, arXiv:1107.3296.
[21-4]: Chiral two-body currents in nuclei: Gamow-Teller transitions and neutrinoless double-beta decay, J. Menendez, D. Gazit, A. Schwenk, Phys. Rev. Lett. 107 (2011) 062501, arXiv:1103.3622.
[21-5]: Resonance enhancement of neutrinoless double electron capture, Krivoruchenko, M. I., Simkovic, Fedor, Frekers, Dieter, Faessler, Amand, Nucl. Phys. A859 (2011) 140-171, arXiv:1012.1204.
[21-6]: Relation between the $0\nu\beta\beta$ and $2\nu\beta\beta$ nuclear matrix elements revisited, Fedor Simkovic, Rastislav Hodak, Amand Faessler, Petr Vogel, Phys. Rev. C83 (2011) 015502, arXiv:1012.0512.
[21-7]: Pionic Contribution to Neutrinoless Double Beta Decay, J.D. Vergados, Amand Faessler, H. Toki, Phys. Rev. D81 (2010) 034018, arXiv:0911.2117.
[21-8]: Running sums for $2\nu\beta\beta$ -decay matrix elements within the QRPA with account for deformation, Fang, Dongliang, Faessler, Amand, Rodin, Vadim, Yousef, Mohamed Saleh, Simkovic, Fedor, Phys. Rev. C81 (2010) 037303, arXiv:0910.3090.
[21-9]: Deformed shell model results for two neutrino positron double beta decay of $^{74}$ Se, Shukla, A., Sahu, R., Kota, V. K. B., Phys. Rev. C80 (2009) 057305, arXiv:0907.0932.
[21-10]: Deformation effects and neutrinoless positron $\beta \beta$ decay of $^{96}$ Ru, $^{102}$ Pd, $^{106}$ Cd, $^{124}$ Xe, $^{130}$ Ba and $^{156}$ Dy isotopes within Majorona neutrino mass mechanism, Rath, P. K., Chandra, R., Chaturvedi, K., Raina, P. K., Hirsch, J. G., Phys. Rev. C80 (2009) 044303, arXiv:0906.4476.
[21-11]: Can one measure nuclear matrix elements of neutrinoless double beta decay?, Rodin, Vadim, Faessler, Amand, Phys. Rev. C80 (2009) 041302, arXiv:0906.1759.
[21-12]: The occupancies of individual orbits and the nuclear matrix element of the $^{76}$ Ge neutrinoless $\beta\beta$ decay, Menendez, J., Poves, A., Caurier, E., Nowacki, F., Phys. Rev. C80 (2009) 048501, arXiv:0906.0179.
[21-13]: The 0nbb-decay nuclear matrix elements with self-consistent short-range correlations, Simkovic, Fedor, Faessler, Amand, Muther, Herbert, Rodin, Vadim, Stauf, Markus, Phys. Rev. C79 (2009) 055501, arXiv:0902.0331.
[21-14]: $0\nu\beta\beta$ nuclear matrix elements and the occupancy of individual orbits, Simkovic, Fedor, Faessler, Amand, Vogel, Petr, Phys. Rev. C79 (2009) 015502, arXiv:0812.0348.
[21-15]: Single and low-lying states dominance in two-neutrino double-beta decay, Moreno, O. et al., J. Phys. G (2009) Nucl. Part. Phys.36:015106, arXiv:0811.0319.
[21-16]: QRPA uncertainties and their correlations in the analysis of neutrinoless double beta decay, Amand Faessler et al., Phys. Rev. D79 (2009) 053001, arXiv:0810.5733.
[21-17]: Nuclear Structure Relevant to Neutrinoless Double Beta Decay: the Valence Protons in 76Ge and 76Se, Kay, B. P. et al., Phys. Rev. C79 (2009) 021301, arXiv:0810.4108.
[21-18]: Two-neutrino double beta decay of deformed nuclei within QRPA with realistic interaction, Yousef, Mohamed Saleh, Rodin, Vadim, Faessler, Amand, Simkovic, Fedor, Phys. Rev. C79 (2009) 014314, arXiv:0806.0964.
[21-19]: Neutrinoless beta-beta matrix element of 76Ge from spectroscopic data, Suhonen, J., Civitarese, O., arXiv:0803.1375, 2008.
[21-20]: Influence of the hexadecapole deformation on the two neutrino double- $\beta$ decay, Chandra, R., Rath, P. K., Raina, P. K., Hirsch, J. G., arXiv:0712.3966, 2007.
[21-21]: Overconstrained estimates of neutrinoless double beta decay within the QRPA, Amand Faessler et al., J. Phys. G35 (2008) 075104, arXiv:0711.3996.
[21-22]: Anatomy of nuclear matrix elements for neutrinoless double-beta decay, Fedor Simkovic, Amand Faessler, Vadim Rodin, Petr Vogel, Jonathan Engel, Phys. Rev. C77 (2008) 045503, arXiv:0710.2055.
[21-23]: The influence of pairing on the nuclear matrix elements of the neutrinoless double beta decays, E. Caurier, J. Menendez, F. Nowacki, A. Poves, Phys. Rev. Lett. 100 (2008) 052503, arXiv:0709.2137.
[21-24]: Description of double beta decay within continuum-QRPA, Rodin, Vadim, Faessler, Amand, Phys. Rev. C77 (2008) 025502, arXiv:0707.2742.
[21-25]: Erratum: Assessment of uncertainties in QRPA $0\nu\beta\beta$ -decay nuclear matrix elements [Nucl. Phys. A 766, 107 (2006)], V. A. Rodin, Amand Faessler, F. simkovic, Petr Vogel, Nucl. Phys. A766 (2006) 107-131, arXiv:0706.4304.
[21-26]: Uncertainties in nuclear transition matrix elements for neutrinoless $\beta\beta$ -decay within the projected-Hartree- Fock-Bogoliubov model, Rath, P. K., Chandra, R., Chaturvedi, K., Raina, P. K., Hirsch, J. G., Phys. Rev. C82 (2010) 064310.
[21-27]: Neutrinoless double-beta decay in the microscopic interacting boson model, Barea, J., Iachello, F., Phys. Rev. C79 (2009) 044301.
[21-33]: Study of two neutrino $\beta^+\beta^+/\beta^+$ EC/ECEC decay of $^{124,126}Xe$ and $^{130,132}\text{Ba}$ for transition in PHFB model, Shukla, A., Raina, P. K., Chandra, R., Rath, P. K., Hirsch, J. G., J. Phys. G: Nucl. Part. Phys. 34 (2007) 549-563.
[21-29]: The positron double-beta decay with emission of two neutrinos in the nuclei Ru-96, Pd-102, Cd-106 and Cd-108, Raina, P. K., Shukla, A., Singh, S., Rath, P. K., Hirsch, J. G., Eur. Phys. J. A28 (2006) 27-36, arXiv:nucl-th/0601024.
[21-30]: A Novel Nuclear Model for Double Beta Decay, Franjo Krmpotic, Fizika B14 (2005) 139-164, arXiv:nucl-th/0601007.
[21-31]: Assessment of uncertainties in QRPA 0nu beta beta-decay nuclear matrix elements, Rodin, V. A., Faessler, A., Simkovic, F., Vogel, P., Nucl. Phys. A766 (2005) 107-131, arXiv:nucl-th/0503063.
[21-32]: n p interaction effects on the double beta decay nuclear matrix elements for medium mass nuclei, Raina, P. K. et al., 67 (2004) 2021-2026, arXiv:nucl-th/0410005.
[21-33]: Two neutrino positron double beta decay of Cd-106 for transition, Shukla, A., Raina, P. K., Chandra, R., Rath, P. K., Hirsch, J. G., Eur. Phys. J. A23 (2005) 235-242, arXiv:nucl-th/0405066.
[21-34]: Effective Operators for Double-Beta Decay, Engel, J., Vogel, P., Phys. Rev. C69 (2004) 034304, arXiv:nucl-th/0311072.
[21-35]: On the uncertainty in the $0\nu\beta\beta$ decay nuclear matrix elements, Rodin, V. A., Faessler, Amand, Simkovic, F., Vogel, Petr, Phys. Rev. C68 (2003) 044302, arXiv:nucl-th/0305005.
[21-36]: Light-neutrino masses and hierarchies and the observability of neutrinoless beta beta decay, Civitarese, O., Suhonen, J., Nucl. Phys. A729 (2003) 867-883, arXiv:nucl-th/0208005.
[21-37]: Neutrinoless double beta decay of Ge-76, Se-82, Mo-100 and Xe-136 to excited 0+ states, Simkovic, F., Nowak, M., Kaminski, W. A., Raduta, A. A., Faessler, Amand, Phys. Rev. C64 (2001) 035501, arXiv:nucl-th/0107016.
[21-38]: Critical view on double-beta decay matrix elements within quasi random phase approximation-based methods, Stoica, S., Klapdor-Kleingrothaus, H. V., Nucl. Phys. A694 (2001) 269-294.
[21-39]: Neutrinoless double beta decay within self-consistent renormalized quasiparticle random phase approximation and inclusion of induced nucleon currents, Bobyk, A., Kaminski, W. A., Simkovic, F., Phys. Rev. C63 (2001) 051301, arXiv:nucl-th/0012010.
[21-40]: Additional nucleon current contributions to neutrinoless double beta decay, Simkovic, F., Pantis, G., Vergados, J. D., Faessler, Amand, Phys. Rev. C60 (1999) 055502, arXiv:hep-ph/9905509.
[21-41]: Nuclear moments for the neutrinoless double beta decay. II, Barbero, C., Krmpotic, F., Mariano, A., Tadic, D., Nucl. Phys. A650 (1999) 485-497, arXiv:nucl-th/9902040.
[21-42]: E. Caurier, F. Nowacki, A. Poves, J. Retamosa, Nucl. Phys. A654 (1999) 973.
[21-43]: Mean-field effects on neutrinoless double beta decay, Aunola, M., Suhonen, J., Nucl. Phys. A643 (1998) 207-221.
[21-44]: Study of several double-beta-decaying nuclei using the renormalized proton neutron quasiparticle random-phase approximation, Toivanen, J., Suhonen, J., Phys. Rev. C55 (1997) 2314-2323.
[21-45]: Non-collapsing renormalized QRPA with proton neutron pairing for neutrinoless double beta decay, Simkovic, F., Schwieger, J., Veselsky, M., Pantis, G., Faessler, Amand, Phys. Lett. B393 (1997) 267-273, arXiv:nucl-th/9612037.
[21-46]: Neutrinoless Double Beta Decay within QRPA with Proton- Neutron Pairing, Pantis, G., Simkovic, F., Vergados, J. D., Faessler, Amand, Phys. Rev. C53 (1996) 695-707, arXiv:nucl-th/9612036.
[21-47]: Shell Model Studies of the Double Beta Decays of 76Ge, 82Se, and 136Xe, E. Caurier, F. Nowacki, A. Poves, J. Retamosa, Phys. Rev. Lett. 77 (1996) 1954.
[21-48]: Renormalized proton neutron quasiparticle random-phase approximation and its application to double beta decay, Toivanen, J., Suhonen, J., Phys. Rev. Lett. 75 (1995) 410-413.
[21-49]: Description of the neutrinoless double beta decay transition in Ge-76: PArticle number projected quasiparticle random phase approximation, Suhonen, J., Civitarese, O., Faessler, Amand, Nucl. Phys. A543 (1992) 645-660.
[21-50]: Calculation of 2nu and 0nu double-beta decay rates, Staudt, A., Muto, K., Klapdor- Kleingrothaus, H. V., Europhys. Lett. 13 (1990) 31-36.
[21-51]: Effects of ground state correlations on 2 neutrino beta beta decay rates and limitations of the QRPA approach, Muto, K., Bender, E., Klapdor, H. V., Z. Phys. A334 (1989) 177-186.
[21-52]: Nuclear structure effects in double beta decay, Engel, J., Vogel, P., Zirnbauer, M. R., Phys. Rev. C37 (1988) 731-746.

22 - Theory - Nuclear Matrix Element - Conference Proceedings

[22-1]: Relation between the $2\nu\beta\beta$ and $0\nu\beta\beta$ nuclear matrix elements, Petr Vogel, Fedor Simkovic, AIP Conf. Proc. 1417 (2011) 139-143, arXiv:1108.1770. MEDEX'11, Prague, June 2011.
[22-2]: Novel Nuclear Structure Aspects of the Neutrinoless Double Beta Decay, J. Menendez, A. Poves, E. Caurier, F. Nowacki, J. Phys. Conf. Ser. 267 (2011) 012058, arXiv:1006.5631. 10th International Spring Seminar On Nuclear Physics, New Quests In Nuclear Structure, Vietri Sul Mare, May 21-25, 2010.
[22-3]: Deformation and the Nuclear Matrix Elements of the Neutrinoless Double Beta Decay, Menendez, J., Poves, A., Caurier, E., Nowacki, F., arXiv:0809.2183, 2008. Enrico Fermi School 2008, Measuring the Neutrino Mass.
[22-4]: Nuclear and particle physics aspects of the 2nbb-decay of 150Nd, Rastislav Dvornicky, Fedor Simkovic, Amand Faessler, AIP Conference Pr OCEEDINGS942 (2007) 2007, arXiv:0710.5841. MEDEX'07, Prague, Czech Rep., June 11-14, 2007.
[22-5]: Neutrino-less double beta decay and nuclear matrix elements, J. Suhonen, 2004. Neutrino 2004, 13-19 June 2004, Paris, France. http://neutrino2004.in2p3.fr/slides/thursday/Suhonen/suhonen.html.

23 - Theory - Nuclear Matrix Element - Slides

[23-1]: Neutrino nuclear responses for beta and double-beta decays, Ejiri, Hiro, 2011. MEDEX'11, Matrix Elements for the Double-beta-decay EXperiments, 13-16 June 2011, Prague, Czechoslovakia. http://medex11.utef.cvut.cz/talks/Ejiri.pdf.

24 - Phenomenology

[24-1]: Implications of 3+1 Short-Baseline Neutrino Oscillations, Carlo Giunti, Marco Laveder, Phys. Lett. B706 (2011) 200-207, arXiv:1111.1069.
[24-2]: Vanishing effective mass of the neutrinoless double beta decay including light sterile neutrinos, Y.F. Li, Si-shuo Liu, Phys. Lett. B706 (2012) 406-411, arXiv:1110.5795.
[24-3]: Four-jet final state in same-sign lepton colliders and neutrinoless double beta decay mechanisms, C. H. Kom, Werner Rodejohann, arXiv:1110.3220, 2011.
[24-4]: Analytic Calculation of Neutrino Mass Eigenvalues, Chaturvedi, K., Koranga, Bipin Singh, Kumar, Vinod, Int. J. Theor. Phys. 51 (2012) 622-628, arXiv:1105.0656.
[24-5]: Solar neutrino-electron scattering as background limitation for double beta decay, N. F. de Barros, K. Zuber, J. Phys. G38 (2011) 105201, arXiv:1103.5757.
[24-6]: Consistency Test of Neutrinoless Double Beta Decay with one Isotope, Michael Duerr, Manfred Lindner, Kai Zuber, (2011), arXiv:1103.4735.
[24-7]: Neutrinoless Double Beta Decay, the Inverted Hierarchy and Precision Determination of theta(12), Alexander Dueck, Werner Rodejohann, Kai Zuber, Phys. Rev. D83 (2011) 113010, arXiv:1103.4152.
[24-8]: Constraining New Physics with a Positive or Negative Signal of Neutrino-less Double Beta Decay, Johannes Bergstrom, Alexander Merle, Tommy Ohlsson, JHEP 05 (2011) 122, arXiv:1103.3015.
[24-9]: Multi-isotope degeneracy of neutrinoless double beta decay mechanisms in the quasi-particle random phase approximation, Amand Faessler, G.L. Fogli, E. Lisi, A.M. Rotunno, F. Simkovic, (2011), arXiv:1103.2504.
[24-10]: Uncovering Multiple CP-Nonconserving Mechanisms of $\beta\beta$ -Decay, Amand Faessler, Aurora Meroni, Serguey T. Petcov, Fedor Simkovic, John Vergados, Phys. Rev. D83 (2011) 113003, arXiv:1103.2434.
[24-11]: Extended Empirical Fermion Mass Relation, Werner Rodejohann, He Zhang, Phys. Lett. B698 (2011) 152-156, arXiv:1101.5525.
[24-12]: Sense and sensitivity of double beta decay experiments, J.J. Gomez-Cadenas et al., JCAP 1106 (2011) 007, arXiv:1010.5112.
[24-13]: Robust Cosmological Bounds on Neutrinos and their Combination with Oscillation Results, M. C. Gonzalez-Garcia, Michele Maltoni, Jordi Salvado, JHEP 08 (2010) 117, arXiv:1006.3795.
[24-14]: Klapdor's claim for the observation of the neutrinoless double beta-decay of Ge-76. Analysis and corrections, Kirpichnikov I.V., arXiv:1006.2025, 2010.
[24-15]: Few active mechanisms of the neutrinoless double beta-decay and effective mass of Majorana neutrinos, Fedor Simkovic, John Vergados, Amand Faessler, Phys. Rev. D82 (2010) 113015, arXiv:1006.0571.
[24-16]: Short-Baseline Electron Neutrino Disappearance, Tritium Beta Decay and Neutrinoless Double-Beta Decay, Carlo Giunti, Marco Laveder, Phys. Rev. D82 (2010) 053005, arXiv:1005.4599.
[24-17]: Inverse Neutrino-less Double Beta Decay Revisited: Neutrinos, Higgs Triplets and a Muon Collider, Werner Rodejohann, Phys. Rev. D81 (2010) 114001, arXiv:1005.2854.
[24-18]: Probing particle and nuclear physics models of neutrinoless double beta decay with different nuclei, G.L. Fogli, E. Lisi, A.M. Rotunno, Phys. Rev. D80 (2009) 015024, arXiv:0905.1832.
[24-19]: Neutrinoless double beta decays of the top quark and other effects of heavy Majorana neutrinos, Eilam, Gad, PoS 2008LHC (2008) 061, arXiv:0902.4622.
[24-20]: Evaluation of neutrino masses from $m_{\beta\beta}$ values, V. V. Khruschov, arXiv:0812.1902, 2008.
[24-21]: Statistical Analysis of future Neutrino Mass Experiments including Neutrino-less Double Beta Decay, Maneschg, Werner, Merle, Alexander, Rodejohann, Werner, Europhys. Lett. 85 (2009) 51002, arXiv:0812.0479.
[24-22]: Observables sensitive to absolute neutrino masses (Addendum), Fogli, G. L. et al., Phys. Rev. D78 (2008) 033010, arXiv:0805.2517.
[24-23]: Neutrino Mass Bounds from from $0\nu\beta\beta$ Decays and Large Scale Structures, Y.-Y. Keum, K. Ichiki, T. Kajino, AIP Conf. Proc. 1016 (2008) 343-349, arXiv:0803.2393.
[24-24]: Majorana Neutrinos, Neutrino Mass Spectrum and the Frontier in Neutrinoless Double Beta Decay, S. Pascoli, S. T. Petcov, Phys. Rev. D77 (2008) 113003, arXiv:0711.4993.
[24-25]: Global neutrino parameter estimation using Markov Chain Monte Carlo, Steen Hannestad, arXiv:0710.1952, 2007.
[24-26]: Probing new physics in the Neutrinoless double beta decay using electron angular correlation, A. Ali, A.V. Borisov, D.V. Zhuridov, Phys. Rev. D76 (2007) 093009, arXiv:0706.4165.
[24-27]: MiniBooNE Results and Neutrino Schemes with 2 sterile Neutrinos: Possible Mass Orderings and Observables related to Neutrino Masses, Goswami, Srubabati, Rodejohann, Werner, JHEP 10 (2007) 073, arXiv:0706.1462.
[24-28]: Statistics of neutrinos and the double beta decay, A.S. Barabash et al., Nucl. Phys. B783 (2007) 90-111, arXiv:0704.2944.
[24-29]: Getting Information on |U_{e3}|^2 from Neutrino-less Double Beta Decay, Alexander Merle, Werner Rodejohann, Adv. High Energy Phys. 2007 (2007) 82674, arXiv:hep-ph/0703135.
[24-30]: Multiple-Isotope Comparison for Determining Neutrinoless Double-Beta Decay Mechanisms, V.M. Gehman, S.R. Elliott, J. Phys. G34 (2007) 667-678, arXiv:hep-ph/0701099.
[24-31]: Pinning down the mechanism of neutrinoless double beta decay with measurements in different nuclei, F. Deppisch, H. Pas, Phys. Rev. Lett. 98 (2007) 232501, arXiv:hep-ph/0612165.
[24-32]: Observables sensitive to absolute neutrino masses: A reappraisal after WMAP-3y and first MINOS results, G.L. Fogli et al., Phys. Rev. D75 (2007) 053001, arXiv:hep-ph/0608060.
[24-33]: Neutrinoless double beta decay: Electron angular correlation as a probe of new physics, A. Ali, A.V. Borisov, D.V. Zhuridov, arXiv:hep-ph/0606072, 2006.
[24-34]: Constraining Mass Spectra with Sterile Neutrinos from Neutrinoless Double Beta Decay, Tritium Beta Decay and Cosmology, Goswami, Srubabati, Rodejohann, Werner, Phys. Rev. D73 (2006) 113003, arXiv:hep-ph/0512234.
[24-35]: Improved Limit on $\theta_{13}$ and Implications for Neutrino Masses in Neutrino-less Double Beta Decay and Cosmology, M. Lindner, A. Merle, W. Rodejohann, Phys. Rev. D73 (2006) 053005, arXiv:hep-ph/0512143.
[24-36]: Neutrinoless double beta decay and neutrino mass hierarchies, S.M. Bilenky, A. Faessler, T. Gutsche, F. Simkovic, Phys. Rev. D72 (2005) 053015, arXiv:hep-ph/0507260.
[24-37]: Non-Oscillation Probes of the Neutrino Mass Hierarchy and Vanishing U_e3, de Gouvea, Andre, Jenkins, James, arXiv:hep-ph/0507021, 2005.
[24-38]: Neutrinoless Double Beta Decay and Future Neutrino Oscillation Precision Experiments, S. Choubey, W. Rodejohann, Phys. Rev. D72 (2005) 033016, arXiv:hep-ph/0506102.
[24-39]: New Method of Enhancing Lepton Number Nonconservation, Ikeda, M., Nakano, I., Sakuda, M., Tanaka, R., Yoshimura, M., arXiv:hep-ph/0506062, 2005.
[24-40]: Nuclear-atomic state degeneracy in neutrinoless double-electron capture: A unique test for a Majorana-neutrino, D. Frekers, arXiv:hep-ex/0506002, 2005.
[24-41]: The Absolute Neutrino Mass Scale, Neutrino Mass Spectrum, Majorana CP-Violation and Neutrinoless Double-Beta Decay, Pascoli, S., Petcov, S. T., Schwetz, T., Nucl. Phys. B734 (2006) 24, arXiv:hep-ph/0505226.
[24-42]: Upper Bounds on Lepton-number Violating Processes, Anupama Atre, Vernon Barger, Tao Han, Phys. Rev. D71 (2005) 113014, arXiv:hep-ph/0502163.
[24-43]: Sterile neutrinos in neutrinoless double beta decay, Benes, P., Faessler, Amand, Kovalenko, S., Simkovic, F., Phys. Rev. D71 (2005) 077901, arXiv:hep-ph/0501295.
[24-44]: Neutrino-nucleus interactions as a probe to constrain double-beta decay predictions, Cristina Volpe, J. Phys. G31 (2005) 903, arXiv:hep-ph/0501233.
[24-45]: A variety of lepton number violating processes related to Majorana neutrino masses, C.S. Lim, E. Takasugi, M. Yoshimura, Prog. Theor. Phys. 113 (2005) 1367, arXiv:hep-ph/0411139.
[24-46]: Conditions for detecting CP violation via neutrinoless double beta decay, Alicja Joniec, Marek Zralek, Phys. Rev. D73 (2006) 033001, arXiv:hep-ph/0411070.
[24-47]: Double beta decay versus cosmology: Majorana CP phases and nuclear matrix elements, Frank Deppisch, Heinrich Paes, Jouni Suhonen, Phys. Rev. D72 (2005) 033012, arXiv:hep-ph/0409306.
[24-48]: Light neutrino and heavy particle exchange in neutrinoless double-beta decay, Gary Prezeau, Phys. Lett. B633 (2006) 93, arXiv:hep-ph/0409235.
[24-49]: Observables sensitive to absolute neutrino masses: Constraints and correlations from world neutrino data, Fogli, G. L. et al., Phys. Rev. D70 (2004) 113003, arXiv:hep-ph/0408045.
[24-50]: Neutrinoless Double Beta Decay and Lepton Flavor Violation, V. Cirigliano, A. Kurylov, M.J. Ramsey-Musolf, P. Vogel, Phys. Rev. Lett. 93 (2004) 231802, arXiv:hep-ph/0406199.
[24-51]: Nuclear Matrix Elements of $0\nu_{\beta\beta}$ -Decay: Possible Test of the Calculations, S.M. Bilenky, S.T. Petcov, arXiv:hep-ph/0405237, 2004.
[24-52]: What can we learn from neutrinoless double beta decay experiments?, Bahcall, John N., Murayama, Hitoshi, Pena-Garay, Carlos, Phys. Rev. D70 (2004) 033012, arXiv:hep-ph/0403167.
[24-53]: Critical View to "The IGEX neutrinoless double beta decay experiment...." published in Phys. Rev. D, Volume 65 (2002) 092007, H.V. Klapdor-Kleingrothaus, A. Dietz, I.V. Krivosheina, Phys. Rev. D70 (2004) 078301, arXiv:hep-ph/0403056.
[24-54]: The Majorana neutrino masses, neutrinoless double beta decay and nuclear matrix elements, S.M. Bilenky, Amand Faessler, F. Simkovic, Phys. Rev. D70 (2004) 033003, arXiv:hep-ph/0402250.
[24-55]: Support of Evidence for Neutrinoless Double Beta Decay, H.V. Klapdor-Kleingrothaus et al., Phys. Lett. B578 (2004) 54-62, arXiv:hep-ph/0312171.
[24-56]: Neutrino-less Double Electron Capture - a tool to research for Majorana neutrinos, Z. Sujkowski, S. Wycech, Phys. Rev. C70 (2004) 052501, arXiv:hep-ph/0312040.
[24-57]: Addendum: The SNO Solar Neutrino Data, Neutrinoless Double Beta-Decay and Neutrino Mass Spectrum, S. Pascoli, S. T. Petcov, Phys. Lett. B580 (2004) 280, arXiv:hep-ph/0310003.
[24-58]: Neutrinoless Double Beta Decay in Light of SNO Salt Data, Hitoshi Murayama, Carlos Pena-Garay, Phys. Rev. D69 (2004) 031301, arXiv:hep-ph/0309114.
[24-59]: Background Analysis around Q_(beta-beta) for 76Ge Double Beta Decay experiments, and Statistics at Low Count Rates, H.V. Klapdor-Kleingrothaus et al., Nucl. Instrum. Meth. A510 (2003) 281, arXiv:hep-ph/0308275.
[24-60]: Running Neutrino Masses, Mixings and CP Phases: Analytical Results and Phenomenological Consequences, Antusch, Stefan, Kersten, Joern, Lindner, Manfred, Ratz, Michael, Nucl. Phys. B674 (2003) 401, arXiv:hep-ph/0305273.
[24-61]: Neutrino masses from beta decays after KamLAND and WMAP, F. R. Joaquim, Phys. Rev. D68 (2003) 033019, arXiv:hep-ph/0304276.
[24-62]: Impact of CP phases on neutrinoless double beta decay, Asmaa Abada, Gautam Bhattacharyya, Phys. Rev. D68 (2003) 033004, arXiv:hep-ph/0304159.
[24-63]: Consequences of neutrinoless double beta decay and WMAP, H.V. Klapdor-Kleingrothaus, U. Sarkar, Mod. Phys. Lett. A18 (2003) 2243, arXiv:hep-ph/0304032.
[24-64]: Neutrinoless double-beta decay and effective field theory, Gary Prezeau, M. Ramsey-Musolf, Petr Vogel, Phys. Rev. D68 (2003) 034016, arXiv:hep-ph/0303205.
[24-65]: Neutrino mass patterns, WMAP, and Neutrinoless double beta decay, Kingman Cheung, Phys. Lett. B562 (2003) 97, arXiv:hep-ph/0302265.
[24-66]: Can the Majorana phases are restricted ?, K. Matsuda, T. Fukuyama, H. Nishiura, Mod. Phys. Lett. A18 (2003) 1803, arXiv:hep-ph/0302254.
[24-67]: Particle physics implications of the WMAP neutrino mmass bound, G. Bhattacharyya, H. Pas, L. Song, T.J. Weiler, Phys. Lett. B564 (2003) 175, arXiv:hep-ph/0302191.
[24-68]: WMAPping out Neutrino Masses, Aaron Pierce, Hitoshi Murayama, Phys. Lett. B581 (2004) 218, arXiv:hep-ph/0302131.
[24-69]: Double Beta Decay Constraints on Neutrino Masses and Mixing; Reanalysis with KamLAND Data, Hisakazu Minakata, Hiroaki Sugiyama, Phys. Lett. B567 (2003) 305, arXiv:hep-ph/0212240.
[24-70]: Neutrinoless Double Beta Decay from Singlet Neutrinos in Extra Dimensions, G. Bhattacharyya, H.V. Klapdor-Kleingrothaus, H. Päs, A. Pilaftsis, Phys. Rev. D67 (2003) 113001, arXiv:hep-ph/0212169.
[24-71]: On the Neutrino Mass Spectrum and Neutrinoless Double-Beta Decay, S. Pascoli, S.T. Petcov, W. Rodejohann, Phys. Lett. B558 (2003) 141, arXiv:hep-ph/0212113.
[24-72]: Double beta decay of sigma^- hyperons, C. Barbero, G. Lopez Castro, A. Mariano, Phys. Lett. B566 (2003) 98, arXiv:nucl-th/0212083.
[24-73]: Neutrinoless double beta decay with scalar bilinears, H.V. Klapdor-Kleingrothaus, U. Sarkar, Phys. Lett. B554 (2003) 45, arXiv:hep-ph/0211274.
[24-74]: The possible test of the calculations of nuclear matrix elements of the $(\beta \beta)_{0\nu}$ -decay, Bilenky, S. M., Grifols, J. A., Phys. Lett. B550 (2002) 154-159, arXiv:hep-ph/0211101.
[24-75]: Baryon and Lepton Number Violation with Scalar Bilinears, Klapdor-Kleingrothaus, H. V., Ma, Ernest, Sarkar, Utpal, Mod. Phys. Lett. A17 (2002) 2221, arXiv:hep-ph/0210156.
[24-76]: Neutrinoless Double Beta Decay in Supersymmetric Seesaw model, Feng, Tai-Fu, Li, Xue-Qian, Luo, Yan-An, Phys. Rev. D66 (2002) 056011, arXiv:hep-ph/0209310.
[24-77]: On the CP Violation Associated with Majorana Neutrinos and Neutrinoless Double-Beta Decay, Pascoli, S., Petcov, S. T., Rodejohann, W., Phys. Lett. B549 (2002) 177-193, arXiv:hep-ph/0209059.
[24-78]: $(\beta\beta)_{0\nu}$ -decay, the problem of the nuclear matrix elements, Bilenky, S. M., Grifols, J. A., arXiv:hep-ph/0207281, 2002.
[24-79]: Operator Analysis of Neutrinoless Double Beta Decay, Choi, Ki-woon, Jeong, Kwang Sik, Song, Wan Young, Phys. Rev. D66 (2002) 093007, arXiv:hep-ph/0207180.
[24-80]: Constraining the absolute neutrino mass scale and Majorana CP violating phases by future neutrinoless double beta decay experiments, Nunokawa, H., Teves, W. J. C., Zukanovich Funchal, R., Phys. Rev. D66 (2002) 093010, arXiv:hep-ph/0206137.
[24-81]: No-go for detecting CP violation via neutrinoless double beta decay, Barger, V., Glashow, S. L., Langacker, P., Marfatia, D., Phys. Lett. B540 (2002) 247-251, arXiv:hep-ph/0205290.
[24-82]: Neutrinoless double $\beta$ decay, neutrino mass hierarchy, and neutrino dark matter, Naoyuki Haba, Noboru Nakamura, Tomoharu Suzuki, arXiv:hep-ph/0205141, 2002.
[24-83]: A Full Determination of the Neutrino Mass Spectrum from Two-zero Textures of the Neutrino Mass Matrix, Xing, Zhi-zhong, Phys. Lett. B539 (2002) 85-90, arXiv:hep-ph/0205032.
[24-84]: The SNO Solar Neutrino Data, Neutrinoless Double-Beta Decay and Neutrino Mass Spectrum, Pascoli, S., Petcov, S. T., Phys. Lett. B544 (2002) 239-250, arXiv:hep-ph/0205022.
[24-85]: Constraints from Neutrinoless Double Beta Decay, K. Matsuda, T. Kikuchi, T. Fukuyama, H. Nishiura, Mod. Phys. Lett. A17 (2002) 2597, arXiv:hep-ph/0204254.
[24-86]: Measuring leptonic CP Violation in Neutrinoless Double Beta Decay, Rodejohann, W., arXiv:hep-ph/0203214, 2002.
[24-87]: Predictions on the neutrinoless double beta decay from the leptogenesis via the LH(u) flat direction, Fujii, Masaaki, Hamaguchi, K., Yanagida, T., Phys. Lett. B538 (2002) 107-114, arXiv:hep-ph/0203189.
[24-88]: Constraining four neutrino mass patterns from neutrinoless double beta decay, Pakvasa, Sandip, Roy, Probir, Phys. Lett. B535 (2002) 181-186, arXiv:hep-ph/0203188.
[24-89]: Model-independent Constraint on the Neutrino Mass Spectrum from the Neutrinoless Double Beta Decay, Xing, Zhi-zhong, Phys. Rev. D65 (2002) 077302, arXiv:hep-ph/0202034.
[24-90]: Neutrino mixing schemes and neutrinoless double beta decay, Klapdor-Kleingrothaus, H. V., Sarkar, U., Phys. Lett. B532 (2002) 71-76, arXiv:hep-ph/0202006.
[24-91]: Constraints on Neutrino Mixing Parameters By Observation of Neutrinoless Double Beta Decay, Minakata, Hisakazu, Sugiyama, Hiroaki, Phys. Lett. B532 (2002) 275-283, arXiv:hep-ph/0202003.
[24-92]: Neutrino mass matrix solutions and neutrinoless double beta decay, Hambye, Thomas, Eur. Phys. J. direct C4 (2002) 13, arXiv:hep-ph/0201307.
[24-94]: Addendum to "Neutrino oscillations and signals in $\beta$ and $(\beta\beta)_{0\nu}$ experiments", Feruglio, Ferruccio, Strumia, Alessandro, Vissani, Francesco, Nucl. Phys. B659 (2002) 359-362, arXiv:hep-ph/0201291.
[24-94]: Neutrino oscillations and signals in $\beta$ and $(\beta\beta)_{0\nu}$ experiments, Feruglio, Ferruccio, Strumia, Alessandro, Vissani, Francesco, Nucl. Phys. B637 (2002) 345-377, arXiv:hep-ph/0201291.
[24-95]: Neutrinoless double beta decay can constrain neutrino dark matter, Barger, V., Glashow, S. L., Marfatia, D., Whisnant, K., Phys. Lett. B532 (2002) 15-18, arXiv:hep-ph/0201262.
[24-96]: Implications of observed neutrinoless double beta decay, Klapdor-Kleingrothaus, H. V., Sarkar, U., Mod. Phys. Lett. A16 (2001) 2469-2482, arXiv:hep-ph/0201224.
[24-97]: Phenomenological aspects of light and heavy Majorana neutrinos, Werner Rodejohann, J. Phys. G: Nucl. Part. Phys. 28 (2002) 1477.
[24-98]: In quest of neutrino masses at O(eV) scale, Czakon, M., Gluza, J., Studnik, J., Zralek, M., Phys. Rev. D65 (2002) 053008, arXiv:hep-ph/0110166.
[24-99]: Majorana neutrinos, neutrino mass spectrum, CP-violation and neutrinoless double beta-decay. II: Mixing of four neutrinos, Bilenky, Samoil M., Pascoli, S., Petcov, S. T., Phys. Rev. D64 (2001) 113003, arXiv:hep-ph/0104218.
[24-100]: Majorana neutrinos, neutrino mass spectrum, CP-violation and neutrinoless double beta-decay. I: The three-neutrino mixing case, Bilenky, Samoil M., Pascoli, S., Petcov, S. T., Phys. Rev. D64 (2001) 053010, arXiv:hep-ph/0102265.
[24-101]: MNS parameters from neutrino oscillations, single beta decay and double beta decay, Matsuda, K., Takeda, N., Fukuyama, T., Nishiura, H., Phys. Rev. D64 (2001) 013001, arXiv:hep-ph/0012357.
[24-102]: Neutrino mass spectrum and neutrinoless double beta decay, Klapdor-Kleingrothaus, H. V., Pas, H., Smirnov, A. Y., Phys. Rev. D63 (2001) 073005, arXiv:hep-ph/0003219.
[24-103]: Perspectives on finding the neutrino nature, Czakon, M., Gluza, J., Zralek, M., arXiv:hep-ph/0003161, 2000.
[24-104]: Constraints from neutrino oscillation experiments on the effective Majorana mass in neutrinoless double beta decay, Bilenky, Samoil M., Giunti, C., Grimus, W., Kayser, B., Petcov, S. T., Phys. Lett. B465 (1999) 193-202, arXiv:hep-ph/9907234.
[24-105]: Signal of neutrinoless double beta decay, neutrino spectrum and oscillation scenarios, Vissani, Francesco, JHEP 06 (1999) 022, arXiv:hep-ph/9906525.
[24-106]: Neutrinoless double-beta decay with three or four neutrino mixing, Giunti, C., Phys. Rev. D61 (2000) 036002, arXiv:hep-ph/9906275.
[24-107]: Closing the neutrinoless double beta decay window into violations of the equivalence principle and/or Lorentz invariance, Halprin, A., Volkas, R. R., Phys. Lett. B459 (1999) 183-185, arXiv:hep-ph/9904298.
[24-108]: Neutrino oscillation constraints on neutrinoless double beta decay, Bilenky, Samoil M., Giunti, C., Kim, C. W., Monteno, M., Phys. Rev. D57 (1998) 6981-6988, arXiv:hep-ph/9711400.
[24-109]: Short-baseline neutrino oscillations and neutrinoless double-beta decay in schemes with an inverted mass spectrum, Bilenky, S. M., Giunti, C., Kim, C. W., Petcov, S. T., Phys. Rev. D54 (1996) 4432-4444, arXiv:hep-ph/9604364.
[24-110]: Short-baseline neutrino oscillations and neutrinoless double-beta decay in the framework of three neutrino mixing and a mass hierarchy, Bilenky, Samoil M., Bottino, A., Giunti, C., Kim, C. W., Phys. Rev. D54 (1996) 1881-1890, arXiv:hep-ph/9602216.
[24-111]: Alternate interpretation of the results from the st. Gotthard laboratory double beta decay experiment, Avignone, F. T., Brodzinski, R. L., Miley, H. S., Reeves, J. H., Phys. Lett. B198 (1987) 253-254.
[24-112]: Dirac and pseudo-Dirac neutrinos and neutrinoless double beta decay, Nieves, Jose F., Phys. Lett. B147 (1984) 375.
[24-113]: On pseudo-Dirac neutrinos, neutrino oscillations and neutrinoless double beta decay, Petcov, S. T., Phys. Lett. B110 (1982) 245-249.
[24-114]: Nuclear double-beta decay and a new limit on lepton nonconservation, Primakoff, H., Rosen, Simon Peter, Phys. Rev. 184 (1969) 1925-1933.

25 - Phenomenology - Conference Proceedings

[25-1]: Suppression of Decay from CP Violation, Marek Gozdz, W. A. Kaminski, Int. J. Mod. Phys. E16 (2007) 561, arXiv:1201.1236. Nuclear Physics Workshop in Kazimierz Dolny, Poland, 2006.
[25-2]: Mildly mixed coupled models vs. WMAP7 data, Giuseppe La Vacca, Silvio A. Bonometto, Nucl. Phys. Proc. Suppl. 217 (2011) 68-71, arXiv:1101.2155. NOW2010, Conca Specchiulla, Italy, September 4-11, 2010.
[25-3]: Constraints on fourth generation Majorana neutrinos, Alexander Lenz, Heinrich Pas, Dario Schalla, J. Phys. Conf. Ser. 259 (2010) 012096, arXiv:1010.3883. 16th International Symposium on Particles, Strings and Cosmology (PASCOS2010), Valencia (Spain), July 19th - 23rd, 2010.
[25-4]: What we (would like to) know about the neutrino mass, Fogli, G. L., Lisi, E., Marrone, A., Palazzo, A., Rotunno, A. M., arXiv:0809.2936, 2008. NO-VE 2008, IV International Workshop on.
[25-5]: Electron angular correlation in neutrinoless double beta decay and new physics, A. Ali, A.V. Borisov, D.V. Zhuridov, arXiv:0801.2512, 2008. 13th Lomonosov Conference on Elementary Particle Physics, 23 -29 August 2007, Moscow, Russia.
[25-6]: Neutrinoless Double $\beta$ -Decay: The Problem of Nuclear Matrix Elements, S. M. Bilenky, arXiv:hep-ph/0504075, 2005. International Workshop "Neutrino Telescopes", Venice, February 22-25, 2005.
[25-7]: Hot dark matter in the universe and the role of double beta decay, Klapdor, H.V., 2004. 5th International Workshop on the Identification of Dark Matter - IDM 2004 - 6-10 September 2004, Edinburgh, Scotland. http://www.shef.ac.uk/physics/idm2004/talks/tuesday/pdfs/klapdor-kleingrothaus.pdf.
[25-8]: Neutrinoless Double Beta Decay Constraints, Sugiyama, Hiroaki, arXiv:hep-ph/0307311, 2003. Workshop on Neutrino Oscillations and their Origin (NOON2003), Kanazawa, Japan, 10-14 Feb 2003.
[25-9]: Neutrino anomalies, Alessandro Strumia, arXiv:hep-ex/0304039, 2003. "Neutrino Telescopes", Venezia, march 2003.
[25-10]: Neutrinoless Double Beta Decay and the Neutrino Mass Matrix, H.V. Klapdor-Kleingrothaus, arXiv:hep-ph/0211037, 2002. International Conference on Flavor Physics (ICFP2001), 31 May - 6 June, 2001, Zhang-Jia-Jie, China.
[25-11]: Possible Evidence of Time Variation of Weak Interaction Constant from Double Beta Decay Experiments, A.S. Barabash, Astrophys. Space Sci. 283 (2003) 607, arXiv:nucl-ex/0210011. Workshop on varing fundamental constants, JENAM 2002, Porto, Portugal, September 2-7, 2002.
[25-12]: Absolute neutrino masses: physics beyond SM, double beta decay and cosmic rays, Heinrich Pas, Thomas J. Weiler, arXiv:hep-ph/0205191, 2002. NOON2001 workshop, ICRR, University of Tokyo, Kashiwa, Japan.
[25-13]: Analysis of solar neutrino induced double beta processes for several nuclei, S. V. Semenov, Yu. V. Gaponov, F. Simkovic, P. Domin, Phys. Atom. Nucl. 65 (2002) 2184, arXiv:hep-ph/0205003. International Workhop on Non-Accelerator New Physics (NANP'01), Dubna, Russia, June 2001.
[25-14]: Neutrinoless double-beta decay and neutrino masses, Vissani, F., 2002. Workshop on Neutrino News from the Lab and the Cosmos, Fermilab, October 17 - 19, 2002. http://www-astro-theory.fnal.gov/Conferences/NuCosmo/talks/vissani.ps.
[25-15]: Non-oscillation searches of neutrino mass in the age of oscillations, Vissani, Francesco, Nucl. Phys. Proc. Suppl. 100 (2001) 273-275, arXiv:hep-ph/0012018. Europhysics Neutrino Oscillation Workshop (NOW 2000), Conca Specchiulla, Otranto, Lecce, Ita, 9-16 Sep 2000.
[25-16]: Neutrino spectrum, oscillation scenarios and neutrinoless double beta decay, Vissani, Francesco, arXiv:hep-ph/9904349, 1999. Sixth Topical Seminar on Neutrino and AstroParticle Physics, San Miniato, Italy, 17-21 May 1999.

26 - Phenomenology - Models

[26-1]: Lepton Number and Lepton Flavor Violation through Color Octet States, Sandhya Choubey, Michael Duerr, Manimala Mitra, Werner Rodejohann, arXiv:1201.3031, 2012.
[26-2]: Constraining Bilinear R-Parity Violation from Neutrino Masses, Marek Gozdz, Wieslaw A. Kaminski, Phys. Rev. D78 (2008) 075021, arXiv:1201.1241.
[26-3]: Extra Dimensions and Neutrinoless Double Beta Decay Experiments, Marek Gozdz, Wieslaw A. Kaminski, Amand Faessler, Phys. Rev. D71 (2005) 096005, arXiv:1201.1228.
[26-4]: Neutrinoless Double Beta Decay: Low Left-Right Symmetry Scale?, Miha Nemevsek, Fabrizio Nesti, Goran Senjanovic, Vladimir Tello, arXiv:1112.3061, 2011.
[26-5]: A realistic model of neutrino masses with a large neutrinoless double beta decay rate, Francisco del Aguila, Alberto Aparici, Subhaditya Bhattacharya, Arcadi Santamaria, Jose Wudka, arXiv:1111.6960, 2011.
[26-6]: Constraining neutrinoless double beta decay, L. Dorame, D. Meloni, S. Morisi, E. Peinado, J. W. F. Valle, arXiv:1111.5614, 2011.
[26-7]: Common origin of baryon asymmetry and proton decay, Pei-Hong Gu, Utpal Sarkar, arXiv:1110.4581, 2011.
[26-8]: R-Parity violating flavor symmetries, recent neutrino data and absolute neutrino mass scale, Gautam Bhattacharyya, Heinrich Pas, Daniel Pidt, Phys. Rev. D84 (2011) 113009, arXiv:1109.6183.
[26-9]: Predictions for Neutrino Masses, $\beta\beta_{0nu}$ -Decay and Lepton Flavor Violation in a SUSY $SU(5) \times T^{\prime}$ Model of Flavour, Mu-Chun Chen, Kalyana T. Mahanthappa, Aurora Meroni, S. T. Petcov, arXiv:1109.0731, 2011.
[26-10]: Nonzero Theta13 for Neutrino Mixing in a Supersymmetric B-L Gauge Model with T_7 Lepton Flavor Symmetry, Qing-Hong Cao, Shaaban Khalil, Ernest Ma, Hiroshi Okada, Phys. Rev. D84 (2011) 071302, arXiv:1108.0570.
[26-11]: Neutrinoless Double Beta Decay and Heavy Sterile Neutrinos, Manimala Mitra, Goran Senjanovic, Francesco Vissani, Nucl. Phys. B856 (2012) 26-73, arXiv:1108.0004.
[26-12]: Admixture of quasi-Dirac and Majorana neutrinos with tri-bimaximal mixing, S. Morisi, E. Peinado, Phys. Lett. B701 (2011) 451-457, arXiv:1104.4961.
[26-13]: Neutrino mass hierarchy and the origin of leptonic flavor mixing from the righthanded sector, Philipp Leser, Heinrich Pas, Phys. Rev. D84 (2011) 017303, arXiv:1104.2448.
[26-14]: Neutrinoless double-beta decay and seesaw, S.M. Bilenky, Amand Faessler, W. Potzel, F. Simkovic, Eur. Phys. J. C71 (2011) 1754, arXiv:1104.1952.
[26-15]: Neutrinoless double beta decay with pseudo Dirac neutrinos, Pei-Hong Gu, arXiv:1101.5106, 2011.
[26-16]: Testing the Bimodal/Schizophrenic Neutrino Hypothesis in Neutrino-less Double Beta Decay and Neutrino Telescopes, Barry, James, Mohapatra, Rabindra N., Rodejohann, Werner, Phys. Rev. D83 (2011) 113012, arXiv:1012.1761.
[26-17]: Left-Right Symmetry: from LHC to Neutrinoless Double Beta Decay, Vladimir Tello, Miha Nemevsek, Fabrizio Nesti, Goran Senjanovic, Francesco Vissani, Phys. Rev. Lett. 106 (2011) 151801, arXiv:1011.3522.
[26-18]: Schizophrenic Neutrinos and $\nu$ -less Double Beta Decay, Rouzbeh Allahverdi, Bhaskar Dutta, Rabindra N. Mohapatra, Phys. Lett. B695 (2011) 181-184, arXiv:1008.1232.
[26-19]: TeV Scale See-Saw Mechanisms of Neutrino Mass Generation, the Majorana Nature of the Heavy Singlet Neutrinos and $\beta\beta$ -Decay, A. Ibarra, E. Molinaro, S. T. Petcov, JHEP 09 (2010) 108, arXiv:1007.2378.
[26-20]: Probing New Physics Models of Neutrinoless Double Beta Decay with SuperNEMO, R. Arnold et al. (SuperNEMO), Eur. Phys. J. C70 (2010) 927-943, arXiv:1005.1241.
[26-21]: A direct link between neutrinoless double beta decay and leptogenesis in a seesaw model with symmetry, Y. H. Ahn, Sin Kyu Kang, C. S. Kim, T. Phong Nguyen, Phys. Rev. D82 (2010) 093005, arXiv:1004.3469.
[26-22]: On Non-Unitary Lepton Mixing and Neutrino Mass Observables, Werner Rodejohann, Phys. Lett. B684 (2010) 40-47, arXiv:0912.3388.
[26-23]: Low-energy limits on heavy Majorana neutrino masses from the neutrinoless double-beta decay and non-unitary neutrino mixing, Zhi-zhong Xing, Phys. Lett. B679 (2009) 255-259, arXiv:0907.3014.
[26-24]: Neutrinoless Double Beta Decay and $H^{ +- +- } -> {l'}^ +- l^ +-$ Decays in the Higgs Triplet Model, S. T. Petcov, H. Sugiyama, Y. Takanishi, Phys. Rev. D80 (2009) 015005, arXiv:0904.0759.
[26-25]: LHC and B physics probes of neutrinoless double beta decay in supersymmetry without R-parity, Allanach, B. C., Kom, C. H., Pas, H., JHEP 10 (2009) 026, arXiv:0903.0347.
[26-26]: Large Hadron Collider probe of supersymmetric neutrinoless double beta decay mechanism, Allanach, B. C., Kom, C. H., Pas, H., Phys. Rev. Lett. 103 (2009) 091801, arXiv:0902.4697.
[26-27]: Coupling between cold dark matter and dark energy from neutrino mass experiments, Kristiansen, J. R., La Vacca, G., Colombo, L. P. L., Bonometto, S. A., New Astron. 15 (2010) 609-613, arXiv:0902.2737.
[26-28]: The Effect of Quark Sector Minimal Flavor Violation on Neutrinoless Double Beta Decay, Brian Dudley, Christopher Kolda, Phys. Rev. D79 (2009) 013014, arXiv:0810.2997.
[26-29]: Minimally Allowed Neutrinoless Double Beta Decay Rates From Approximate Flavor Symmetries, James Jenkins, Phys. Rev. D79 (2009) 113004, arXiv:0810.1263.
[26-30]: Minimally Allowed Neutrinoless Double Beta Decay Rates Within an Anarchical Framework, James Jenkins, Phys. Rev. D79 (2009) 113003, arXiv:0808.1702.
[26-31]: Bilepton contributions to the neutrinoless double beta decay in the economical 3-3-1 model, Dang Van Soa, Phung Van Dong, Trinh Thi Huong, Hoang Ngoc Long, J. Exp. Theor. Phys. 108 (2009) 757-763, arXiv:0805.4456.
[26-32]: Tri-bimaximal neutrino mixing and neutrinoless double beta decay, M. Hirsch, S. Morisi, J.W.F. Valle, Phys. Rev. D78 (2008) 093007, arXiv:0804.1521.
[26-33]: Neutrino Mass Matrices With Vanishing Determinant, Bhag C. Chauhan, Joao Pulido, Marco Picariello, Phys. Rev. D73 (2006) 053003, arXiv:hep-ph/0602084.
[26-34]: Neutrinos in a left-right model with a horizontal symmetry, Ken Kiers et al., Phys. Rev. D73 (2006) 033009, arXiv:hep-ph/0510274.
[26-35]: Neutrino Mass Matrices with Vanishing Determinant and $\theta_{13}$ , Bhag C. Chauhan, Joao Pulido, Marco Picariello, arXiv:hep-ph/0510272, 2005.
[26-36]: Predicting Neutrinoless Double Beta Decay, M. Hirsch, Ernest Ma, J. W. F. Valle, A. Villanova del Moral, Phys. Rev. D72 (2005) 091301, arXiv:hep-ph/0507148.
[26-37]: nuMSM-Predictions for Neutrinoless Double Beta Decay, Bezrukov, F., Phys. Rev. D72 (2005) 071303, arXiv:hep-ph/0505247.
[26-38]: Neutrino Decay and Neutrinoless Double Beta Decay in a 3-3- 1 Model, Dias, Alex G., Doff, A., de S. Pires, C. A., da Silva, P. S. Rodrigues, Phys. Rev. D72 (2005) 035006, arXiv:hep-ph/0503014.
[26-39]: Neutrino masses, F. Buccella, D. Falcone, Mod. Phys. Lett. A19 (2004) 2993, arXiv:hep-ph/0404159.
[26-40]: Zee model and Neutrinoless double beta decay, Ming-Yang Cheng, Kingman Cheung, arXiv:hep-ph/0203051, 2002.
[26-41]: Neutrinoless Double Beta Decay with Negligible Neutrino Mass, Brahmachari, Biswajoy, Ma, Ernest, Phys. Lett. B536 (2002) 259-262, arXiv:hep-ph/0202262.
[26-42]: The neutrinoless double $\beta$ decay and the neutrino mass hierarchy, Haba, Naoyuki, Suzuki, Tomoharu, Mod. Phys. Lett. A17 (2002) 865-874, arXiv:hep-ph/0202143.
[26-43]: Sneutrino oscillations and neutrinoless double beta decay, Hirsch, M., Klapdor-Kleingrothaus, H. V., Kovalenko, S. G., Phys. Lett. B403 (1997) 291-296.

27 - Phenomenology - Models - Conference Proceedings

[27-1]: $0\nu2beta$ Nuclear Matrix Elements and Neutrino Magnetic Moments, M. Gozdz, W. A. Kaminski, Int. J. Mod. Phys. E19 (2010) 692, arXiv:1201.1247. Nuclear Physics Workshop in Kazimierz Dolny, Poland, 2009.
[27-2]: Neutrinoless double beta decay constrained by the existence of large extra dimensions, Marek Gozdz, W. A. Kaminski, Int. J. Mod. Phys. E13 (2004) 367, arXiv:1201.1238. Nuclear Physics Workshop in Kazimierz Dolny, Poland, 2003.
[27-3]: Neutrinoless double beta decay: searching for new physics with comparison of different nuclei, A. Ali, A. V. Borisov, D. V. Zhuridov, arXiv:1112.4074, 2011. 14th Lomonosov Conference on Elementary Particle Physics (Moscow, August 19-25, 2009).
[27-4]: Probing the Majorana nature of the neutrino with neutrinoless double beta decay, S. Morisi, J. Phys. Conf. Ser. 203 (2010) 012060, arXiv:0910.2542. TAUP09, July 1-5, 2009 (Roma).

28 - Phenomenology - Related Processes

[28-1]: Nuclear muon-positron conversion mediated by Majorana neutrinos, Pavol Domin, Amand Faessler, Sergey Kovalenko, Fedor Simkovic, Phys. Rev. C70 (2004) 065501, arXiv:nucl-th/0409033.

29 - Phenomenology - Background

[29-1]: Aluminum as a source of background in low background experiments, B. Majorovits, I. Abt, M. Laubenstein, O. Volynets, Nucl. Instrum. Meth. A647 (2011) 39-45, arXiv:1105.3591.
[29-2]: A background free double beta decay experiment, Ioannis Giomataris, J. Phys. Conf. Ser. 309 (2011) 012010, arXiv:1012.4289.
[29-3]: Neutron Inelastic Scattering Processes as Background for Double-Beta Decay Experiments, D.-M. Mei et al., Phys. Rev. C77 (2008) 054614, arXiv:0704.0306.
[29-4]: Muon-induced background study for underground laboratories, Mei, Dongming, Hime, A., Phys. Rev. D73 (2006) 053004, arXiv:astro-ph/0512125.

30 - Phenomenology - Background - Conference Proceedings

[30-1]: Neutron- and muon-induced background in underground physics experiments, V.A. Kudryavtsev, L. Pandola, V. Tomasello, Eur. Phys. J. A36 (2008) 171-180, arXiv:0802.3566. IV ILIAS Annual Meeting.

31 - Future Projects

[31-1]: NEXT-100 Technical Design Report (TDR). Executive Summary, A.L. Ferreira et al. (NEXT), arXiv:1202.0721, 2012.
[31-2]: SiPMs coated with TPB : coating protocol and characterization for NEXT, V. Alvarez et al., arXiv:1201.2018, 2012.
[31-3]: Potential of a next generation neutrinoless double beta decay experiment based on ZnMoO4 scintillating bolometers, J.W. Beeman et al., arXiv:1112.3672, 2011.
[31-4]: GraXe, graphene and xenon for neutrinoless double beta decay searches, J. J. Gomez-Cadenas et al., arXiv:1110.6133, 2011.
[31-5]: Sensitivity of CUORE to Neutrinoless Double-Beta Decay, F. Alessandria et al., arXiv:1109.0494, 2011.
[31-6]: Deep Underground Science and Engineering Laboratory - Preliminary Design Report, Kevin T. Lesko et al., arXiv:1108.0959, 2011.
[31-7]: Studies of a three-stage dark matter and neutrino observatory based on multi-ton combinations of liquid xenon and liquid argon detectors, K. Arisaka et al., arXiv:1107.1295, 2011.
[31-8]: The NEXT-100 experiment for neutrinoless double beta decay searches (Conceptual Design Report), V. Alvarez et al. (NEXT), arXiv:1106.3630, 2011.
[31-9]: Primary and secondary scintillation measurements in a xenon Gas Proportional Scintillation Counter, L.M.P. Fernandes et al., JINST 5 (2010) P09006, arXiv:1009.2719.
[31-10]: NEXT, a HPGXe TPC for neutrinoless double beta decay searches, F. Granena et al. (NEXT), arXiv:0907.4054, 2009.
[31-11]: DUSEL Theory White Paper, S. Raby et al., arXiv:0810.4551, 2008.
[31-13]: XAX: a multi-ton, multi-target detection system for dark matter, double beta decay and pp solar neutrinos, Arisaka, K. et al., Astropart. Phys. 31 (2009) 63-74, arXiv:0808.3968.
[31-13]: XAX: a multi-ton, multi-target detection system for dark matter, double beta decay and pp solar neutrinos, Arisaka, K. et al., Astropart. Phys. 31 (2009) 63-74, arXiv:0808.3968.
[31-14]: A low background facility inside the LVD detector at Gran Sasso, F. Arneodo, W. Fulgione, JCAP 0902 (2009) 028, arXiv:0808.1465.
[31-15]: The SuperNEMO double beta decay experiment, Irina Nasteva (SuperNEMO), arXiv:0710.4279, 2007. 10th ICATPP Conference, Como, Italy, 8-12 October 2007.
[31-16]: Feasibility study of the observation of the neutrino accompanied double beta-decay of Ge-76 to the 0+(1) excited state of Se-76 using segmented germanium detectors, K. Kroeninger, L. Pandola, V. Tretyak, Ukr. J. Phys. 52 (2007) 1036-1044, arXiv:nucl-ex/0702030.
[31-17]: Experimental study of 113Cd beta decay using CdZnTe detectors, Goessling, C. et al., Phys. Rev. C72 (2005) 064328, arXiv:nucl-ex/0508016.
[31-18]: CUORE: A Cryogenic Underground Observatory for Rare Events, Ardito, R. (CUORE), arXiv:hep-ex/0501010, 2005.
[31-19]: The Majorana Neutrinoless Double-Beta Decay Experiment, C. E. Aalseth et al. (Majorana), Phys. Atom. Nucl. 67 (2004) 2002, arXiv:hep-ex/0405008.
[31-20]: A New 76Ge Double Beta Decay Experiment at LNGS, I. Abt et al. (GERDA), arXiv:hep-ex/0404039, 2004.
[31-21]: White paper on the Majorana zero-neutrino double-beta decay experiment, R. Gaitskell et al. (Majorana), arXiv:nucl-ex/0311013, 2003.
[31-22]: Physics Chapter: NUSEL-Homestake Science Book, C. Aalseth et al. (Homestake), arXiv:nucl-ex/0308018, 2003.
[31-23]: Physics potential and prospects for the CUORICINO and CUORE experiments, Arnaboldi, C. et al. (CUORE), Astropart. Phys. 20 (2003) 91, arXiv:hep-ex/0302021.
[31-24]: Cuore: A Cryogenic Underground Observatory for Rare Events, C. Arnaboldi et al. (CUORE), Nucl. Instrum. Meth. A518 (2004) 775, arXiv:hep-ex/0212053.
[31-25]: A cryogenic underground observatory for rare events: CUORE, an update, Alessandrello, A. et al. (CUORE), Phys. Atom. Nucl. 66 (2003) 452, arXiv:hep-ex/0201038.
[31-26]: High sensitivity GEM experiment on 2beta decay of Ge-76, Zdesenko, Yu. G., Ponkratenko, O. A., Tretyak, V. I., J. Phys. G27 (2001) 2129, arXiv:nucl-ex/0106021.
[31-27]: COBRA: Double beta decay searches using CdTe detectors, Zuber, K., Phys. Lett. B519 (2001) 1-7, arXiv:nucl-ex/0105018.
[31-28]: Double beta decay with large scale Yb-loaded scintillators, Zuber, K., Phys. Lett. B485 (2000) 23-26, arXiv:nucl-ex/0004010.
[31-29]: Detection of very small neutrino masses in double-beta decay using laser tagging, Danilov, M. et al., Phys. Lett. B480 (2000) 12-18, arXiv:hep-ex/0002003.
[31-30]: Neutrinoless double beta decay with Xe-136 in BOREXINO and the BOREXINO Counting Test Facility (CTF), Caccianiga, B., Giammarchi, M. G., Astropart. Phys. 14 (2000) 15-31.
[31-31]: Double beta decay: The future, Fiorini, E., Nucl. Phys. Proc. Suppl. 91 (2000) 262-269.
[31-32]: Background and technical studies for GENIUS as a dark matter experiment, Baudis, L. et al., Nucl. Instrum. Meth. A426 (1999) 425-435, arXiv:hep-ex/9811040.
[31-33]: A large scale double beta and dark matter experiment: GENIUS, Hellmig, J., Klapdor-Kleingrothaus, H. V., Z. Phys. A359 (1997) 351-359, arXiv:nucl-ex/9801004.
[31-34]: Ice shielding in the large scale GENIUS experiment for double beta decay and dark matter search, Klapdor-Kleingrothaus, H. V., Zdesenko, Yu. G., Eur. Phys. J. A3 (1998) 107-108.
[31-35]: Future perspectives of double beta decay and dark matter search - GENIUS, Klapdor-Kleingrothaus, H. V., Hellmig, J., Hirsch, M., J. Phys. G24 (1998) 483-516.
[31-36]: A large scale double beta and dark matter experiment: On the physics potential of GENIUS, Klapdor-Kleingrothaus, H. V., Hirsch, M., Z. Phys. A359 (1997) 361-372.

32 - Future Projects - Conference Proceedings

[32-1]: Neutrinoless Double Beta Decay with SNO+, J. Hartnell, SNO+ collaboration, arXiv:1201.6169, 2012. TAUP 2011.
[32-2]: The Majorana experiment: an ultra-low background search for neutrinoless double-beta decay, D. G. Phillips II et al., arXiv:1111.5578, 2011. Rutherford Centennial Conference on Nuclear Physics.
[32-3]: The Majorana Project, C. E. Aalseth et al. (MAJORANA), J. Phys. Conf. Ser. 203 (2010) 012057, arXiv:0910.4598. TAUP 2009.
[32-4]: SuperNEMO - the next generation double beta decay experiment, Irina Nasteva et al. (SuperNEMO), PoS EPS-HEP2009 (2009) 463, arXiv:0909.3167. EPS-HEP 2009.
[32-5]: Status of EXO-200, Nicole Ackerman (EXO), arXiv:0909.1826, 2009. DPF-2009, Detroit, MI, July 2009.
[32-6]: The MAJORANA DEMONSTRATOR: An R&D project towards a tonne- scale germanium neutrinoless double-beta decay search, Henning, Reyco et al. (MAJORANA), AIP Conf. Proc. 1182 (2009) 88-91, arXiv:0907.1581. CIPANP 2009.
[32-7]: The SNO+ Experiment, Mark C. Chen, SNO+ collaboration (SNO+), arXiv:0810.3694, 2008. ICHEP08.
[32-8]: The SuperNEMO Experiment, R. Benton Pahlka (SuperNEMO), arXiv:0810.3169, 2008. ICHEP08.
[32-9]: Search for neutrinoless double-beta decay of Ge-76 with GERDA, Karl-Tasso Knoepfle (GERDA), arXiv:0809.5207, 2008. ICHEP08, Philadelphia, USA, July 2008.
[32-10]: Supernemo: A Next Generation Project to Search for Neutrinoless Double Beta Decay, Shitov, Yu. (SuperNEMO), arXiv:0807.3078, 2008. XXth Rencontres de Blois 18th-23rd May 2008.
[32-11]: Calorimeter R&D for the SuperNEMO Double Beta Decay Experiment, Matthew Kauer (SuperNEMO), J. Phys. Conf. Ser. 160 (2009) 012031, arXiv:0807.2188. Calor'08.
[32-12]: The Majorana Project, Elliott, S. R. et al. (MAJORANA), J. Phys. Conf. Ser. 173 (2009) 012007, arXiv:0807.1741. 2008 Carolina International Symposium on Neutrino Physics.
[32-13]: The MAJORANA 76Ge neutrino less double-beta decay project: A brief update, Avignone, F. T., III (MAJORANA), J. Phys. Conf. Ser. 120 (2008) 052059, arXiv:0711.4808.
[32-14]: EXO: An advanced Enriched Xenon double-beta decay Observatory, Akimov, D. et al., Nucl. Phys. Proc. Suppl. 138 (2005) 224-226.
[32-15]: Strategy for future double beta experiments, F. Avignone, 2004. Neutrino 2004, 13-19 June 2004, Paris, France. http://neutrino2004.in2p3.fr/slides/thursday/avignone.pdf.
[32-16]: GENIUS - A New Underground Observatory for Non-Accelerator Particle Physics, Klapdor-Kleingrothaus, H. V., Nucl. Phys. Proc. Suppl. 110 (2002) 364-368, arXiv:hep-ph/0206249. TAUP 2001, September 8-12, 2001.
[32-17]: The Majorana Ge-76 double-beta decay project, Aalseth, C. E. et al. (MAJORANA), arXiv:hep-ex/0201021, 2002. 3rd International Conference on Nonaccelerator New Physics (NANPino 01), Dubna, Moscow Region Russia, 19-23 June 2001.
[32-18]: CAMEO/GEM program for future 2beta decay and dark matter experiments, Zdesenko, Yu. G., Nucl. Phys. Proc. Suppl. 110 (2002) 385-388. TAUP 2001.
[32-19]: New underground neutrino observatory - GENIUS - in the new millenium: For solar neutrinos, dark matter and double beta decay, Klapdor-Kleingrothaus, H. V., arXiv:hep-ph/0104028, 2001. International Workshop on Low Energy Solar Neutrinos (LowNu2), December 4 and 5, 2000, Tokyo, Japan.
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33 - History - Conference Proceedings

[33-1]: False starts in history of searches for double beta decay, or Discoverless double beta decay, V. I. Tretyak, AIP Conf. Proc. 1417 (2011) 129-133, arXiv:1112.4183. Workshop on Calculation of Double Beta Decay Matrix Elements (MEDEX'11), Prague, June 13-16, 2011.

Neutrino Unbound

We Can Put an End to Word Attachments

Authors:
Carlo Giunti / giunti@to.infn.it
Marco Laveder / marco.laveder@pd.infn.it

Last Update: Fri 10 Feb 2012, day 41 of the year 2012, 09:09:41 UTC