Publications from DEAP
In June 2001, SNO Scientists used the capability of the SNO detector to measure all three types of neutrinos to determine solar neutrinos are changing their flavour enroute to Earth, thus providing answers to questions about neutrino properties and solar energy generation. SNO was the first neutrino detector in the World to identify the changes in neutrinos during their journey from the Sun.
Since this initial finding, SNO and SNOLAB have continued to generate published reports concerning neutrinos and other topics involved in our science programme. There have been in excess of 700 technical reports issued detailing technical and other matters relating to the construction and calibration of the neutrino detector as well as more than 50 published papers and conference proceedings on astroparticle physics research undertaken at SNO and SNOLAB.
| Date | Collaboration | Title |
|---|---|---|
| 2020‑04‑05 | DEAP |
Position Reconstruction Using Photon Timing for the DEAP-3600 Dark Matter Experiment The DEAP Collaboration |
| 2020‑01‑20 | DEAP |
The liquid-argon scintillation pulseshape in DEAP-3600 The DEAP Collaboration https://link.springer.com/content/pdf/10.1140/epjc/s10052-020-7789-x.pdf |
| 2019‑07‑04 | DEAP |
Search for dark matter with a 231-day exposure of liquid argon using DEAP-3600 at SNOLAB The DEAP Collaboration |
| 2019‑05‑14 | DEAP |
Electromagnetic Backgrounds and Potassium-42 Activity in the DEAP-3600 Dark Matter Detector The DEAP Collaboration |
| 2019‑01‑29 | DEAP |
In-situ characterization of the Hamamatsu R5912-HQE photomultiplier tubes used in the DEAP-3600 experiment The DEAP Collaboration |
| 2018‑08‑13 | DEAP |
First results from the DEAP-3600 dark matter search with argon at SNOLAB The DEAP-3600 Collaboration |
| 2018‑05‑15 | DEAP |
Backgrounds in the DEAP-3600 Dark Matter Experiment B. Lehnert |
| 2018‑04‑10 | DEAP |
Design and Construction of the DEAP-3600 Dark Matter Detector The DEAP Collaboration |
| 2017‑08‑21 | DEAP |
A method for characterizing after-pulsing and dark noise of PMTs and SiPMs The DEAP-3600 Collaboration |
| 2017‑06‑15 | DEAP |
In-situ Surface Contamination Removal and Cool-down Process of the DEAP-3600 Experiment P. Giampa |
| 2017‑04‑06 | DEAP |
Application of the TPB wavelength shifter to the DEAP-3600 spherical acrylic vessel inner surface The DEAP-3600 Collaboration |
| 2017‑04‑06 | DEAP |
Application of the TPB Wavelength Shifter to the DEAP-3600 Spherical Acrylic Vessel Inner Surface B. Broerman et al. |
| 2016‑09‑26 | DEAP |
DEAP-3600 dark matter experiment Nasim Fatemighomi (for the DEAP-3600 Collaboration) |
| 2016‑09‑16 | DEAP |
Measurement of the scintillation time spectra and pulse-shape discrimination of low-energy β and nuclear recoils in liquid argon with DEAP-1 P.-A. Amaudruz et al. http://www.sciencedirect.com/science/article/pii/S0927650516301232 |
| 2016‑07‑11 | DEAP |
Early commissioning calibration data sets for DEAP-3600 Berta Beltran for the DEAP collaboration http://iopscience.iop.org/article/10.1088/1742-6596/718/4/042004/pdf |
| 2016‑07‑11 | DEAP |
In-situ surface contamination removal and cool-down process of the DEAP-3600 experiment Pietro Giampa, for the DEAP collaboration http://iopscience.iop.org/article/10.1088/1742-6596/718/4/042025/pdf |
| 2016‑06‑07 | DEAP |
Temperature dependence of alpha-induced scintillation in the 1,1,4,4-tetraphenyl-1,3-butadiene wavelength shifter L. M. Veloce et al. |
| 2016‑05‑18 | DEAP |
Dark matter experiment using Argon pulse-shape discrimination: DEAP-3600 Design and assembly C.J. Jillings (DEAP Collaboration) http://download.springer.com/static/pdf/595/art%253A10.1007%252Fs10751-0... |
| 2016‑02‑18 | DEAP |
Light detection and the wavelength shifter deposition in DEAP-3600 B. Broermana and F. Retièreb (DEAP Collaboration) http://iopscience.iop.org/article/10.1088/1748-0221/11/02/C02058/pdf |
| 2015‑11‑01 | DEAP |
The DEAP-3600 Dark Matter Experiment Bei Cai for DEAP Collaboration |
| 2015‑08‑25 | DEAP |
DEAP-3600 Dark Matter Search M. Kuzniak (DEAP Collaboration) |
| 2014‑12‑19 | DEAP |
Improving photoelectron counting and particle identification in scintillation detectors with Bayesian techniques M. Akashi-Ronquest, P.-A. Amaudruz, M. Batygov, et.al |
| 2014‑10‑22 | DEAP |
Radon backgrounds in the DEAP-1 liquid-argon-based Dark Matter detector DEAP Collaboration, T. Pollmann http://www.sciencedirect.com/science/article/pii/S0927650514001352 |
| 2014‑06‑02 | DEAP |
Search for Dark Matter with Liquid Argon and Pulse Shape Discrimination: Results from DEAP-1 and Status of DEAP-3600 P. Gorel for the DEAP Collaboration |
| 2013‑10‑08 | DEAP |
Radon backgrounds in the DEAP-1 liquid-argon-based Dark Matter detector PA Amaudruz, M Batygov, B Beltran et al. |
| 2012‑09‑12 | DEAP |
Acrylic purification and coatings M Kuzniak |
| 2012‑03‑03 | DEAP |
DEAP-3600 Dark Matter Search at SNOLAB M.G. Boulay for the DEAP Collaboration arXiv:1203.0604 (Mar 2012) |
| 2010‑11‑03 | DEAP |
Scintillation of thin tetraphenyl butadiene films under alpha particle excitation T. Pollmann et al. Nuclear Instruments and Methods in Physics Research Section A, Volume 635, Issue 1, 11 April 2011, Pages 127-130 arXiv:1011.1012 (Nov 2010) |
| 2009‑04‑20 | DEAP |
Measurement of the scintillation time spectra and pulse-shape discrimination of low-energy beta and nuclear recoils in liquid argon with DEAP-1 M.G. Boulay et al. arXiv:0904.2930 (Apr 2009) |