GERDA (76Ge)

(GERmanium Detector Array)

Other Web pages: INSPIRE

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References

1 - Reviews

[1-1]
Design and Performance of the GERDA Low-Background Cryostat for Operation in Water, K. T. Knopfle, B. Schwingenheuer, JINST 17 () P02038, arXiv:2202.03847.
[Knopfle:2022fso]

2 - Neutrinoless Double Beta Decay

[2-1]
An improved limit on the neutrinoless double-electron capture of $^{36}$Ar with GERDA, M. Agostini et al. (GERDA), Eur.Phys.J.C 84 (2024) 34, arXiv:2311.02214.
[GERDA:2023cdx]
[2-2]
Search for exotic physics in double-$\beta$ decays with GERDA Phase II, M. Agostini et al. (GERDA), JCAP 12 (2022) 012, arXiv:2209.01671.
[GERDA:2022ffe]
[2-3]
Final Results of GERDA on the Search for Neutrinoless Double-$\beta$ Decay, M. Agostini et al. (GERDA), Phys.Rev.Lett. 125 (2020) 252502, arXiv:2009.06079.
[GERDA:2020xhi]
[2-4]
Probing Majorana neutrinos with double-$\beta$ decay, M. Agostini et al. (GERDA), Science 365 (2019) 1445, arXiv:1909.02726.
[GERDA:2019ivs]
[2-5]
Improved limit on neutrinoless double beta decay of $^{76}$Ge from GERDA Phase II, M. Agostini et al., Phys.Rev.Lett. 120 (2018) 132503, arXiv:1803.11100.
[GERDA:2018pmc]
[2-6]
Background free search for neutrinoless double beta decay with GERDA Phase II, M. Agostini et al. (GERDA), arXiv:1703.00570, 2017.
[Agostini:2017iyd]
[2-7]
Limit on the Radiative Neutrinoless Double Electron Capture of $^{36}$Ar from GERDA Phase I, M. Agostini et al. (GERDA), Eur.Phys.J. C76 (2016) 652, arXiv:1605.01756.
[GERDA:2016fzn]
[2-8]
Results on neutrinoless double beta decay of 76Ge from GERDA Phase I, M. Agostini et al. (GERDA), Phys. Rev. Lett. 111 (2013) 122503, arXiv:1307.4720.
[GERDA:2013vls]

3 - Two-Neutrino Double-Beta Decay

[3-1]
Final Results of GERDA on the Two-Neutrino Double-$\beta$ Decay Half-Life of $^{76}$Ge, M. Agostini et al. (GERDA), Phys.Rev.Lett. 131 (2023) 142501, arXiv:2308.09795.
[GERDA:2023wbr]
[3-2]
$2\nu\beta\beta$ decay of $^{76}$Ge into excited states with GERDA Phase I, M. Agostini et al., J. Phys. G42 (2015) 115201, arXiv:1506.03120.
[GERDA:2015naf]
[3-3]
Results on $\beta\beta$ decay with emission of two neutrinos or Majorons in $^{76}$Ge from GERDA Phase I, M. Agostini et al., Eur. Phys. J. C75 (2015) 416, arXiv:1501.02345.
[Agostini:2015nwa]
[3-4]
Measurement of the half-life of the two-neutrino double beta decay of Ge-76 with the Gerda experiment, M. Agostini et al. (GERDA), J. Phys. G40 (2013) 035110, arXiv:1212.3210.
[GERDA:2012huf]

4 - Dark Matter

[4-1]
The first search for bosonic super-WIMPs with masses up to 1 MeV/c$^2$ with GERDA, M. Agostini et al. (GERDA), Phys.Rev.Lett. 125 (2020) 011801, arXiv:2005.14184.
[GERDA:2020emj]

5 - Physics

[5-1]
Flux Modulations seen by the Muon Veto of the GERDA Experiment, M. Agostini et al. (GERDA), Astropart.Phys. 84 (2016) 29-35, arXiv:1601.06007.
[GERDA:2016lhn]

6 - Detector

[6-1]
Liquid argon light collection and veto modeling in GERDA Phase II, M. Agostini et al. (GERDA), Eur.Phys.J.C 83 (2023) 319, arXiv:2212.02856.
[GERDA:2022hxs]
[6-2]
Pulse shape analysis in GERDA Phase II, M. Agostini et al. (GERDA), Eur.Phys.J.C 82 (2022) 284, arXiv:2202.13355.
[GERDA:2022ixh]
[6-3]
Calibration of the GERDA experiment, M. Agostini et al. (GERDA), Eur.Phys.J.C 81 (2021) 682, arXiv:2103.13777.
[GERDA:2021pcs]
[6-4]
In-situ measurement of the scintillation light attenuation in liquid argon in the GERDA Experiment, Nuno Barros, Alexander R. Domula, Bjorn Lehnert, Birgit Schneider, Kai Zuber, Nucl.Instrum.Meth. A953 (2020) 163059, arXiv:1906.11589.
[Barros:2019fki]
[6-5]
Characterization of 30 $^{76}$Ge enriched Broad Energy Ge detectors for GERDA Phase II, M. Agostini et al. (GERDA), Eur.Phys.J. C79 (2019) 978, arXiv:1901.06590.
[GERDA:2019vry]
[6-6]
Virtual depth by active background suppression: Revisiting the cosmic muon induced background of GERDA Phase II, C. Wiesinger, L. Pandola, S. Schonert, Eur.Phys.J. C78 (2018) 597, arXiv:1802.05040.
[Wiesinger:2018qxt]
[6-7]
Upgrade for Phase II of the GERDA Experiment, M. Agostini et al., Eur.Phys.J. C78 (2018) 388, arXiv:1711.01452.
[GERDA:2017ihb]
[6-8]
Mitigation of $^{42}$Ar/$^{42}$K background for the GERDA Phase II experiment, A. Lubashevskiy et al., Eur.Phys.J. C78 (2018) 15, arXiv:1708.00226.
[Lubashevskiy:2017lmf]
[6-9]
Limits on uranium and thorium bulk content in GERDA Phase I detectors, K. Freund et al. (GERDA), Astropart.Phys. 91 (2017) 15-21, arXiv:1611.06884.
[GERDA:2016gkz]
[6-10]
The Performance of the Muon Veto of the GERDA Experiment, K. Freund et al., Eur.Phys.J. C76 (2016) 298, arXiv:1601.05935.
[Freund:2016fhz]
[6-11]
Production and Characterization of 228Th Calibration Sources with Low Neutron Emission for GERDA, Laura Baudis et al., JINST 10 (2015) P12005, arXiv:1508.05731.
[Baudis:2015sba]
[6-12]
Fluorescence Efficiency and Stability of Radio-Pure Tetraphenyl-butadiene Based Coatings for VUV Light Detection in Cryogenic Environments, Laura Baudis et al., JINST 10 (2015) P09009, arXiv:1503.05349.
[Baudis:2015saa]
[6-13]
Improvement of the Energy Resolution via an Optimized Digital Signal Processing in GERDA Phase I, M. Agostini et al., Eur.Phys.J. C75 (2015) 255, arXiv:1502.04392.
[GERDA:2015rik]
[6-14]
Production, characterization and operation of $^{76}$Ge enriched BEGe detectors in GERDA, M. Agostini et al. (GERDA), Eur.Phys.J. C75 (2015) 39, arXiv:1410.0853.
[GERDA:2014gpo]
[6-15]
Pulse shape discrimination for GERDA Phase I data, M. Agostini et al., Eur.Phys.J. C73 (2013) 2583, arXiv:1307.2610.
[Agostini:2013jta]
[6-16]
The background in the neutrinoless double beta decay experiment GERDA, M. Agostini et al. (GERDA), Eur.Phys.J. C74 (2014) 2764, arXiv:1306.5084.
[GERDA:2013krg]
[6-17]
Isotopically modified Ge detectors for GERDA: from production to operation, D. Budjas et al. (GERDA), JINST 8 (2013) P04018, arXiv:1303.6768.
[Budjas:2013bea]
[6-18]
Monte Carlo Studies for the Calibration System of the GERDA Experiment, Laura Baudis, Alfredo D. Ferella, Francis Froborg, Michal Tarka, Nucl.Instrum.Meth. A729 (2013) 557-564, arXiv:1303.6679.
[Baudis:2013kaa]
[6-19]
HEROICA: an Underground Facility for the Fast Screening of Germanium Detectors, E. Andreotti et al., JINST 1306 (2013) P06012, arXiv:1302.4277.
[Andreotti:2013xoa]
[6-20]
The GERDA experiment for the search of $0\nu\beta\beta$ decay in $^{76}$Ge, K.-H. Ackermann et al. (GERDA), Eur.Phys.J. C73 (2013) 2330, arXiv:1212.4067.
[GERDA:2012qwd]
[6-21]
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.
[Agostini:2011xe]
[6-22]
Pulse shape discrimination studies with a Broad-Energy Germanium detector for signal identification and background suppression in the GERDA double beta decay experiment, Dusan Budjas, Marik Barnabe Heider, Oleg Chkvorets, Nikita Khanbekov, Stefan Schonert, JINST 4 (2009) P10007, arXiv:0909.4044.
[Budjas:2009zu]

7 - Detector - Talks

[7-1]
Background Rejection of n$^+$ Surface Events in GERDA Phase II, Bjorn Lehnert (GERDA), J. Phys. Conf. Ser. 718 (2016) 062035, arXiv:1605.03978. TAUP 2015.
[Lehnert:2016pvs]
[7-2]
Background modeling for the GERDA experiment, N. Becerici-Schmidt, on behalf of the GERDA (GERDA), AIP Conf.Proc. 1549 (2013) 156, arXiv:1306.2302. LRT 2013.
[Becerici-Schmidt:2013gia]

8 - Talks

[8-1]
Searching for neutrinoless double beta decay with GERDA, M. Agostini et al. (GERDA), Int.J.Mod.Phys.Conf.Ser. 46 (2018) 1860040, arXiv:1710.07776. TAUP2017.
[GERDA:2017wlm]
[8-2]
Status Report of the GERDA Phase II Startup, Valerio D'Andrea (GERDA), arXiv:1604.05016, 2016. ICNPA 2016.
[DAndrea:2016brm]
[8-3]
Search of Neutrinoless Double Beta Decay with the GERDA Experiment, Giovanni Benato (GERDA), arXiv:1509.07792, 2015. CIPANP2015.
[Benato:2015yla]
[8-4]
The search for 0nbb decay with the GERDA experiment: status and prospects, B. Majorovits (GERDA), AIP Conf. Proc. 1672 (2015) 110003, arXiv:1506.00415. LRT 2015, Seattle.
[Majorovits:2015vka]
[8-5]
Results on neutrinoless double beta decay from GERDA Phase I, Carla Macolino (GERDA), Mod. Phys. Lett. A29 (2014) 1430001, arXiv:1312.0562.
[Macolino:2013ifa]
[8-6]
The MGDO software library for data analysis in Ge neutrinoless double-beta decay experiments, M. Agostini et al., J. Phys. Conf. Ser. 375 (2012) 042027, arXiv:1111.7260. TAUP2011.
[Agostini:2011nf]
[8-7]
Off-line data quality monitoring for the GERDA experiment, P. Zavarise, M. Agostini, A. A. Machado, L. Pandola, O. Volynets, J. Phys. Conf. Ser. 375 (2012) 042028, arXiv:1111.7200. TAUP 2011.
[Zavarise:2011sn]
[8-8]
Off-line data processing and analysis for the GERDA experiment, M. Agostini, L. Pandola, P. Zavarise, J. Phys. Conf. Ser. 368 (2012) 012047, arXiv:1111.3582. ACAT 2011.
[Agostini:2011mh]
[8-9]
The GERDA experiment: status and perspectives, C.A. Ur (GERDA), Nucl. Phys. Proc. Suppl. 217 (2011) 38-40.
[Ur:2011zz]
[8-10]
Performance of bare high-purity germanium detectors in liquid argon for the GERDA experiment, Marik Barnabe Heider et al., arXiv:0812.1907, 2008. IEEE Conference 2008 Nuclear Science Symposium, 19 - 25 October 2008, Dresden, Germany.
[BarnabeHeider:2008xbc]
[8-11]
Highly sensitive gamma-spectrometers of GERDA for material screening: Part I, D. Budjas et al., arXiv:0812.0723, 2008. XIV International Baksan School 'Particles and Cosmology' Baksan Valley, Kabardino-Balkaria, Russia, April 16-21,2007.
[Budjas:2008xv]
[8-12]
Search for neutrinoless double-beta decay of Ge-76 with GERDA, Karl-Tasso Knoepfle (GERDA), arXiv:0809.5207, 2008. ICHEP08, Philadelphia, USA, July 2008.
[Knopfle:2008sq]

9 - Proposal

[9-1]
A New 76Ge Double Beta Decay Experiment at LNGS, I. Abt et al., arXiv:hep-ex/0404039, 2004.
[Abt:2004yk]

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Last Update: Fri 29 Mar 2024, 11:15:53 CET