CUORE (130Te)

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1 - Reviews

CUORE Opens the Door to Tonne-scale Cryogenics Experiments, D. Q. Adams et al. (CUORE), Prog.Part.Nucl.Phys. 122 (2022) 103902, arXiv:2108.07883.
Study of Rare Nuclear Processes with CUORE, C. Alduino et al. (CUORE), arXiv:1801.05403, 2018.
Neutrino physics with cryogenic detectors, Ettore Fiorini, Prog. Part. Nucl. Phys. 64 (2010) 241-248.

2 - Neutrinoless Double Beta Decay

High sensitivity neutrinoless double-beta decay search with one tonne-year of CUORE data, D. Q. Adams et al., arXiv:2104.06906, 2021.
Improved Limit on Neutrinoless Double-Beta Decay in $^{130}$Te with CUORE, D. Q. Adams et al. (CUORE), Phys.Rev.Lett. 124 (2020) 122501, arXiv:1912.10966.
Double-beta decay of ${}^{130}$Te to the first $0^+$ excited state of ${}^{130}$Xe with CUORE-0, C. Alduino et al. (CUORE), Eur.Phys.J. C79 (2019) 795, arXiv:1811.10363.
First Results from CUORE: A Search for Lepton Number Violation via $0\nu\beta\beta$ Decay of $^{130}$Te, C. Alduino et al. (CUORE), Phys.Rev.Lett. 120 (2018) 132501, arXiv:1710.07988.
Search for Neutrinoless $\beta^{+}\hspace{-0.2em}EC$ Decay of $^{120}$Te with CUORE-0, C. Alduino et al. (CUORE), Phys.Rev. C97 (2018) 055502, arXiv:1710.07459.
Analysis Techniques for the Evaluation of the Neutrinoless Double-Beta Decay Lifetime in $^{130}$Te with CUORE-0, C. Alduino et al. (CUORE), Phys. Rev. C93 (2016) 045503, arXiv:1601.01334.
Search for Neutrinoless Double-Beta Decay of $^{130}$Te with CUORE-0, K. Alfonso et al. (CUORE), Phys. Rev. Lett. 115 (2015) 102502, arXiv:1504.02454.
130Te Neutrinoless Double-Beta Decay with CUORICINO, E. Andreotti et al. (CUORICINO), Astropart. Phys. 34 (2011) 822-831, arXiv:1012.3266.
Search for beta plus/EC double beta decay of 120Te, E. Andreotti et al. (CUORICINO), Astropart. Phys. 34 (2011) 643-648, arXiv:1011.4811.
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.
A New Limit on the Neutrinoless DBD of 130Te, C. Arnaboldi et al., Phys. Rev. Lett. 95 (2005) 142501, arXiv:hep-ex/0501034.
A Calorimetric search on double beta decay of Te-130, C. Arnaboldi, C. Brofferio, C. Bucci, S. Capelli, O. Cremonesi et al., Phys.Lett. B557 (2003) 167-175, arXiv:hep-ex/0211071.

3 - Articles

Cuore Sensitivity to $0\nu\beta\beta$ Decay, C. Alduino et al. (CUORE), Eur.Phys.J.C 77 (2017) 532, arXiv:1705.10816.
Sensitivity of CUORE to Neutrinoless Double-Beta Decay, F. Alessandria et al., arXiv:1109.0494, 2011.
CUORE: A Cryogenic underground observatory for rare events, R. Ardito, C. Arnaboldi, D.R. Artusa, III Avignone, F.T., M. Balata et al., arXiv:hep-ex/0501010, 2005.
Physics potential and prospects for the CUORICINO and CUORE experiments, C. Arnaboldi et al. (CUORE), Astropart. Phys. 20 (2003) 91, arXiv:hep-ex/0302021.
Cuore: A Cryogenic Underground Observatory for Rare Events, C. Arnaboldi et al. (CUORE), Nucl. Instrum. Meth. A518 (2004) 775, arXiv:hep-ex/0212053.
A cryogenic underground observatory for rare events: CUORE, an update, A. Alessandrello et al. (CUORE), Phys. Atom. Nucl. 66 (2003) 452, arXiv:hep-ex/0201038.

4 - Physics

Search for 14.4 keV solar axions from M1 transition of Fe-57 with CUORE crystals, Cuore (Cuore), JCAP 1305 (2013) 007, arXiv:1209.2800.

5 - Detector

An Energy-dependent Electro-thermal Response Model of CUORE Cryogenic Calorimeter, D. Q. Adams et al. (CUORE), JINST 17 (2022) P11023, arXiv:2205.04549.
The CUORE cryostat: a 10 mK infrastructure for large bolometric arrays, C. Alduino et al., Cryogenics 102 (2019) 9-21, arXiv:1904.05745.
An active noise cancellation technique for the CUORE Pulse Tube Cryocoolers, A. D'Addabbo et al., Cryogenics 93 (2018) 56-65, arXiv:1712.02753.
Radon-free environment for the installation of the CUORE $0\nu\beta\beta$ decay detector, G. Benato et al., JINST 13 (2018) P01010, arXiv:1711.07936.
Complete event-by-event $\alpha$/$\gamma(\beta)$ separation in a full-size TeO$_2$ CUORE bolometer by simultaneous heat and light detection, L. Berge et al., Phys.Rev. C97 (2018) 032501, arXiv:1710.03459.
Low Energy Analysis Techniques for CUORE, C. Alduino et al. (CUORE), Eur.Phys.J. C77 (2017) 857, arXiv:1708.07809.
The Detector Calibration System for the CUORE cryogenic bolometer array, J. S. Cushman et al., Nucl.Instrum.Meth. A844 (2017) 32-44, arXiv:1608.01607.
CUORE-0 detector: design, construction and operation, C. Alduino et al. (CUORE), JINST 11 (2016) P07009, arXiv:1604.05465.
An assembly line for the construction of ultra-pure detectors, A. Buccheri et al., Nucl.Instrum.Meth. A768 (2014) 130-140, arXiv:1405.0852.
TeO$_2$ bolometers with Cherenkov signal tagging: towards next-generation neutrinoless double beta decay experiments, N. Casali et al., Eur.Phys.J. C75 (2015) 12, arXiv:1403.5528.
Searching for neutrinoless double-beta decay of $^{130}$Te with CUORE, D. R. Artusa et al. (CUORE), Adv.High Energy Phys. 2015 (2015) 879871, arXiv:1402.6072.
Initial performance of the CUORE-0 experiment, C. P. Aguirre et al. (CUORE), Eur.Phys.J. C74 (2014) 2956, arXiv:1402.0922.
Signal and noise simulation of CUORE bolometric detectors, M. Carrettoni, M. Vignati, JINST 6 (2011) P08007, arXiv:1106.3902.

6 - Background

The projected background for the CUORE experiment, C. Alduino et al. (CUORE), Eur.Phys.J.C 77 (2017) 543, arXiv:1704.08970.
Monte Carlo evaluation of the external gamma, neutron and muon induced background sources in the CUORE experiment, F. Bellini et al., Astropart. Phys. 33 (2010) 169-174, arXiv:0912.0452.

7 - Talks

New results from the CUORE experiment, A. Giachero et al. (CUORE), PoS ICHEP2020 (2021) 133, arXiv:2011.09295. 40th International Conference on High Energy physics (ICHEP2020), July 28 - August 6, 2020, Prague, Czech Republic.
Update on the recent progress of the CUORE experiment, D. Q. Adams et al. (CUORE), arXiv:1808.10342, 2018. Neutrino 2018.
The CUORE cryostat, A. D'Addabbo (CUORE), J.Low.Temp.Phys. 193 (2018) 867-875, arXiv:1805.06209.
The CUORE experiment at LNGS, Davide Chiesa, arXiv:1712.07995, 2017. 18th Lomonosov Conference on Elementary Particle Physics.
The CUORE experiment at the LNGS, Antonio Branca (CUORE), arXiv:1705.00005, 2017. NuPhys2016 (London, 12-14 December 2016).
The CUORE slow monitoring systems, L Gladstone et al., J.Phys.Conf.Ser. 888 (2017) 012234, arXiv:1612.05318. XXVII International Conference on Neutrino Physics and Astrophysics (Neutrino 2016), UK.
The CUORE and CUORE-0 experiments at LNGS, A. D'Addabbo et al. (CUORE), EPJ Web Conf. 164 (2017) 07047, arXiv:1612.04276. ICNFP2016.
CUORE-0 background analysis and evaluation of $^{130}$Te $2\nu\beta\beta$ decay half-life, Davide Chiesa (CUORE), arXiv:1610.04518, 2016. 28th Rencontres de Blois, Particle Physics and Cosmology, Chateau Royal de Blois, May 29 - June 03, 2016.
Status of the CUORE and results from the CUORE-0 neutrinoless double beta decay experiments, M. Sisti et al. (CUORE), Nucl.Part.Phys.Proc. 273-275 (2016) 1719-1725, arXiv:1502.03653. ICHEP 2014, Valencia (Spain) 2-9 July 2014.
CUORE-0 results and prospects for the CUORE experiment, D.R. Artusa et al. (CUORE), AIP Conf. Proc. 1666 (2015) 170001, arXiv:1502.02576. Neutrino 2014, 2-7 June 2014, Boston, Massachusetts, USA.
The CUORE and CUORE-0 Experiments at Gran Sasso, A. Giachero et al., EPJ Web Conf. 95 (2015) 04024, arXiv:1410.7481. International Conference of New Frontiers in Physics, ICNFP 2014.
The Coldest Cubic Meter in the Known Universe, Jonathan Ouellet, arXiv:1410.1560, 2014.
CUORE and beyond: bolometric techniques to explore inverted neutrino mass hierarchy, D. R. Artusa et al., Phys.Procedia 61 (2015) 241-250, arXiv:1407.1094. TAUP 2013.
Feasibility study of dark matter searches with the CUORE experiment, M. Vignati, CUORE (CUORE), PoS IDM2010 (2011) 019, arXiv:1102.3564. Identification of Dark Matter 2010, Montpellier, France.
The Search for Neutrinoless Double Beta Decay in CUORE, L.M. Ejzak (CUORE), arXiv:0910.2994, 2009. DPF-2009, Detroit, Jul. 27-31.
Cryogenic Double Beta Decay Experiments: CUORE and CUORICINO, Reina Maruyama, for the CUORE Collaboration (CUORE), Nucl. Phys. Proc. Suppl. 221 (2011) 174-178, arXiv:0809.3840. 22nd International Conference on Neutrino Physics and Astrophysics (Neutrino 2006), Santa Fe, New Mexico, 13-19 Jun 2006.
CUORE experiment: The search for neutrinoless double beta decay, Marisa Pedretti et al., Int. J. Mod. Phys. A23 (2008) 3395-3398. 4th International Conference on Flavor Physics (ICFP) Beijing, China, 24-28 September 2007.
The CUORICINO and CUORE double beta decay experiments, R. Ardito et al., Prog. Part. Nucl. Phys. 57 (2006) 203-216. Erice 2005.
Cuoricino last results and Cuore R&D, S. Capelli (CUORE), arXiv:hep-ex/0505045, 2005. Rencontres the Moriond: 2005 Electroweak session.
The front-end readout for CUORICINO, an array of macro- bolometers and MIBETA, an array of mu-bolometers, C. Arnaboldi et al., Nucl. Instrum. Meth. A520 (2004) 578-580. 10th International Workshop on Low Temperature Detectors (LTD-10), Genoa, Italy, 7-11 Jul 2003.
Results of Cuoricino and perspectives for CUORE, E. Fiorini, 2004. Neutrino 2004, 13-19 June 2004, Paris, France.
Dark matter search in the Milano double beta experiment and prospects for the CUORE project, A. Giuliani et al., Nucl. Phys. Proc. Suppl. 110 (2002) 64-66.
The first step toward CUORE: Cuoricino, a thermal detector array to search for rare events, A. Alessandrello et al., Nucl. Phys. Proc. Suppl. 87 (2000) 78-80.
Present status of MI-BETA cryogenic experiment and preliminary results for CUORICINO, S. Pirro et al., Nucl. Instrum. Meth. A444 (2000) 71-76.
CUORE: A cryogenic underground observatory for rare events, E. Fiorini, Phys. Rep. 307 (1998) 309-317.

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