SNO+

(Sudbury Neutrino Observatory +)

Other Web pages: INSPIRE

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References

1 - Reviews

[1-1]
The SNO+ Experiment, V. Albanese et al. (SNO+), JINST 16 (2021) P08059, arXiv:2104.11687.
[SNO:2021xpa]
[1-2]
Current Status and Future Prospects of the SNO+ Experiment, S. Andringa et al. (SNO+), Adv. High Energy Phys. 2016 (2015) 6194250, arXiv:1508.05759.
[SNO:2015wyx]

2 - Solar Neutrinos

[2-1]
Event-by-Event Direction Reconstruction of Solar Neutrinos in a High Light-Yield Liquid Scintillator, A. Allega et al. (SNO+), Phys.Rev.D 109 (2024) 072002, arXiv:2309.06341.
[SNO:2023cnz]
[2-2]
Measurement of the $^8$B Solar Neutrino Flux in SNO+ with Very Low Backgrounds, M. Anderson et al. (SNO+), Phys.Rev. D99 (2019) 012012, arXiv:1812.03355.
[SNO:2018fch]

3 - Reactor Neutrinos

[3-1]
Observation of Antineutrinos from Distant Reactors using Pure Water at SNO+, A. Allega et al. (SNO+), Phys.Rev.Lett. 130 (2023) 091801, arXiv:2210.14154.
[SNO:2022qvw]

4 - Nucleon Decay

[4-1]
Improved search for invisible modes of nucleon decay in water with the SNO+ detector, A. Allega et al. (SNO+), Phys.Rev.D 105 (2022) 112012, arXiv:2205.06400.
[SNO:2022trz]
[4-2]
Search for invisible modes of nucleon decay in water with the SNO+ detector, M. Anderson et al. (SNO+), Phys.Rev. D99 (2019) 032008, arXiv:1812.05552.
[SNO:2018ydj]

5 - Detector

[5-1]
A laserball calibration device for the SNO+ scintillator phase, S. Valder, A. Gibson-Foster, E. Falk, S. J. M. Peeters, C. Mills, M. Nirkko, M. Rigan, J. Sinclair, JINST 19 (2024) T01005, arXiv:2310.12745.
[Valder:2023tou]
[5-2]
Optical calibration of the SNO+ detector in the water phase with deployed sources, M. R. Anderson et al., JINST 16 (2021) P10021, arXiv:2106.03951.
[SNO:2021wcl]
[5-3]
Development, characterisation, and deployment of the SNO+ liquid scintillator, SNO+ Collaboration et al., JINST 16 (2021) P05009, arXiv:2011.12924.
[SNO:2020fhu]
[5-4]
Measurement of neutron-proton capture in the SNO+ water phase, M. R. Anderson et al. (SNO+), Phys.Rev. C102 (2020) 014002, arXiv:2002.10351.
[SNO:2020bdq]

6 - Phenomenology

[6-1]
The Sensitivity of SNO+ to $\Delta m_{12}^{2}$ Using Reactor Anti-neutrino Data, Eugene Guillian, arXiv:0809.1649, 2008.
[Guillian:2008gf]
[6-2]
SNO+: predictions from standard solar models and spin flavour precession, Marco Picariello, Joao Pulido, S. Andringa, N. F. Barros, J. Maneira, JHEP 11 (2007) 055, arXiv:0705.4070.
[Picariello:2007sw]

7 - Talks

[7-1]
Measuring Solar Neutrinos in the SNO+ Detector, Daniel Cookman, arXiv:2403.19532, 2024. NuPhys2023.
[Cookman:2024euw]
[7-2]
The SNO+ Journey to $0\nu\beta\beta$, A. S. Inacio, W. Parker, B. Tam, arXiv:2403.19351, 2024. NuPhys2023.
[Inacio:2024yfm]
[7-3]
Neutrinoless Double Beta Decay in the SNO+ Experiment, Josephine Paton, arXiv:1904.01418, 2019. NuPhys2018 (London, 19-21 December 2018).
[Paton:2019kgy]
[7-4]
Search for neutrinoless double-beta decay with SNO+, Vincent Fischer (SNO+), arXiv:1809.05986, 2018. CIPANP2018.
[Fischer:2018squ]
[7-5]
Internal Backgrounds in the Water Phase of SNO+, Ian Lam (SNO+), arXiv:1808.09114, 2018.
[Lam:2018xjr]
[7-6]
Neutron detection in the SNO+ water phase, Y. Liu et al. (SNO+), arXiv:1808.07020, 2018. Neutrino 2018.
[SNO:2018hes]
[7-7]
Status of the SNO+ Experiment, SNO+ (Erica Caden), J.Phys.Conf.Ser. 1342 (2020) 012022, arXiv:1711.11094. TAUP2017.
[Caden:2017htb]
[7-8]
Commissioning of ELLIE for SNO+, E. Falk, J. Lidgard, M. I. Stringer, E. Turner (SNO+), arXiv:1705.00354, 2017. NuPhys2016 (London, Dec. 12-14, 2016).
[Falk:2017xvz]
[7-9]
The SNO+ experiment physics goals and background mitigation, G. Prior, arXiv:1704.06647, 2017.
[Prior:2017nuf]
[7-10]
Geoneutrinos and reactor antineutrinos at SNO+, M Baldoncini et al., J. Phys. Conf. Ser. 718 (2016) 062003, arXiv:1607.05959. XIV International Conference on Topics in Astroparticle and Underground Physics (TAUP 2015).
[Baldoncini:2016mbp]
[7-11]
Probing neutrinoless double beta decay with SNO+, Evelina Arushanova, Ashley R. Back, arXiv:1505.00247, 2015. Prospects in Neutrino Physics Conference, 15 - 17 December, 2014, held at Queen Mary University of London, UK.
[Arushanova:2015cla]
[7-12]
SNO+ with Tellurium, Steven Biller (SNO+), Phys.Procedia 61 (2015) 205-210, arXiv:1405.3401.
[Biller:2014eha]
[7-13]
Neutrinoless double beta decay search with SNO+, V. Lozza (SNO+), EPJ Web Conf. 65 (2014) 01003.
[Lozza:2014maa]
[7-14]
SNO+: Physics program and status update, L. Sibley (SNO+), AIP Conf.Proc. 1604 (2014) 449-455.
[Sibley:2015kjm]
[7-15]
From SNO to SNO+, upgrading a neutrino experiment, G. Lefeuvre (SNO+), Nucl.Instrum.Meth. A718 (2013) 506-508.
[Lefeuvre:2013iwa]
[7-16]
SNO+ Experiment Status, Matthew Mottram (SNO+), PoS EPS-HEP2013 (2013) 524.
[Mottram:2013mvm]
[7-17]
The SNO+ experiment: status and overview, Simon J.M. Peeters (SNO+), Nucl. Phys. Proc. Suppl. 237-238 (2013) 98-100.
[Peeters:2013xwa]
[7-18]
Scintillator phase of the SNO+ experiment, V. Lozza (SNO+), J. Phys. Conf. Ser. 375 (2012) 042050, arXiv:1201.6599.
[Lozza:2012bf]
[7-19]
Neutrinoless Double Beta Decay with SNO+, J. Hartnell, SNO+ (SNO+), J. Phys. Conf. Ser. 375 (2012) 042015, arXiv:1201.6169. TAUP 2011.
[Hartnell:2012qd]
[7-20]
Liquid Scintillator Purification and Assay R&D at SNO+, O. Chkvorets, R. Ford, D. Hallman, E. Vazquez-Jauregui, Nucl. Phys. Proc. Suppl. 229-232 (2012) 519.
[Chkvorets:2012lga]
[7-21]
SNO+ Electronic Upgrades, Robert Knapik, Richie Bonventre, Tim Shokair, Nucl. Phys. Proc. Suppl. 229-232 (2012) 523.
[Knapik:2012pga]
[7-22]
Results from a scintillator test deployment in SNO+, H.M. O'Keeffe, C. Kraus, H.S. Wan Chan Tseung, J.R. Wilson (SNO+), Nucl. Phys. Proc. Suppl. 229-232 (2012) 552.
[OKeeffe:2012lzo]
[7-23]
SNO+ Liquid Scintillator Characterization: Timing, Quenching, and Energy Scale, E. O'Sullivan, H.S. Wan Chan Tseung, N. Tolich, H.M. O'Keeffe, M. Chen, Nucl. Phys. Proc. Suppl. 229-232 (2012) 549.
[OSullivan:2012fwt]
[7-24]
Supernova Detection with SNO+, M.A. Schumaker, Nucl. Phys. Proc. Suppl. 229-232 (2012) 547.
[Schumaker:2012eva]
[7-25]
Status of the SNO+ experiment, Belina von Krosigk (SNO), PoS HQL2012 (2012) 025.
[vonKrosigk:2012yw]
[7-26]
Scintillation decay time and pulse shape discrimination in oxygenated and deoxygenated solutions of linear alkylbenzene for the SNO+ experiment, H.M. O'Keeffe, E. O'Sullivan, M.C. Chen, Nucl.Instrum.Meth. A640 (2011) 119-122, arXiv:1102.0797.
[OKeeffe:2011dex]
[7-27]
SNO+ scintillator purification and assay, R. Ford, M. Chen, O. Chkvorets, D. Hallman, E. Vazquez-Jauregui, AIP Conf.Proc. 1338 (2011) 183-194.
[Ford:2011zza]
[7-28]
Status and prospects of SNO+, J. Maneira (SNO+), Nucl. Phys. Proc. Suppl. 217 (2011) 50-52.
[Maneira:2011zz]
[7-29]
The rich neutrino programme of the SNO+ experiment, Christine Kraus, Simon J.M. Peeters (SNO+), Prog.Part.Nucl. Phys. 64 (2010) 273-277.
[Kraus:2010zzb]
[7-30]
Robust Signal Extraction Methods and Monte Carlo Sensitivity Studies for the Sudbury Neutrino Observatory and SNO+ Experiments, Alexander Joseph Wright, 2009.
[Wright:2009csa]
[7-31]
Status of the SNO+ experiment, Kai Zuber (SNO+), AIP Conf.Proc. 1180 (2009) 150-154.
[Zuber:2009zz]
[7-32]
The SNO+ Experiment, Mark C. Chen (SNO+), arXiv:0810.3694, 2008. ICHEP08.
[Chen:2008un]
[7-33]
Nd double beta decay search with SNO+, Kai Zuber (SNO+), AIP Conf.Proc. 942 (2007) 101-104.
[Zuber:2007zz]

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Last Update: Fri 19 Apr 2024, 14:41:59 CET