Dongming Mei

Zhang and D.-M. Mei, AstroParticle Physics, Available online, May 20, 2022, 102733.

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Implication of the Atomic Effects in Neutrinloess Double Beta Decay, D.-M. Mei and W.-Z. Wei, Modern Physics Letters A, Vol. 37, No. 10 (2022) 2250058.

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Phys. J. C 82 (2022) 3, 203.

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Implication of the Temperature-Dependent Charge Barrier Height of Amorphous Germanium Contact Detector in Searching for Rare Event Physics, R. Panth, W.-Z. Wei, D.-M. Mei, J. Liu, S. Bhattarai, H. Mei, M. Raut, P. Acharya, K. Kooi, G.-J. Wang, arXiv: 2101.09322. NIM A 1035 (2022) 166862.

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Constraints on effective field theory couplings using 311.2 days of LUX data, D. S. Akerib et al. (LUX Collaboration), Phys. Rev. D 104, 062005 (2021).

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Improving sensitivity to low-mass dark matter in LUX using a novel electrode background mitigation technique, D. S. Akerib et al. (LUX Collaboration), Phys. Rev. D 104, 012011 (2021).

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Effective field theory analysis of the first LUX dark matter search, D. S. Akerib et al. (LUX Collaboration), Phys. Rev. D 103, 122005 (2021).

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Disrcimination of electronic recoils from nuclear recoils in two-phase xenon time projection chambers, D. S. Akerib et al. (LUX Collaboration), Phys. Rev. D 102, 112002 (2021).

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Reply to "Comment on 'Observation of annual modulation induced by rays from ( , ) reactions at the Soudan Underground Laboratory' ", C. Zhang, D.-M. Mei, A. Tiwari, P. Cushman, Phys. Rev. C 101, 049802 (2020).

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Characterization of High-Purity Germanium Detectors with Amorphous Germanium Contacts in Cryogenic Liquids, R. Panth, J. Liu, I. Abt, X. Liu, O. Schulz, W.-Z. Wei, H. Mei, D.-M. Mei, G.-J. Wang, Eur. Phys. J. C. p667 (2020), arXiv: 2003.13792.

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The impact of the charge barrier height on germanium (Ge) detectors with amorphous-Ge contacts for light dark matter searches, W.-Z. Wei, R. Panth, J. Liu, H. Mei, D.-M. Mei, G.-J. Wang, arXiv: 2002.04462. Eur. Phys. J C 80 (2020) 472.

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Impact of charge trapping on the energy resolution of Ge detectors for rare-event physics searches, D.-M. Mei et al, Journal of Physics G: Nuclear and Particle Physics, Vol. 47, (2020)105106, arXiv: 1909.05806.

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Investigation of background electron emission in the LUX detector, Investigation of background electron emission in the LUX detector, D. S. Akerib et al. (LUX Collaboration), Phys. Rev. D 102, 092004 (2020).

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Search for two neutrino double electron capture of 124Xe and 126Xe in the full exposure of the LUX detector, D. S. Akerib et al., (LUX Collaboration), Journal of Physics G: Nuclear and Particle Physics, Vol. 47, (2020) 105105.

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Improved modeling of beta electronic recoils in liquid xenon using LUX calibration data, D. S. Akerib et al., (LUX Collaboration), JINST, V 15, February 2020.

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Extending light WIMP searches to single scientillation photons in LUX, D. S. Akerib et al., (LUX Collaboration), Phys. Rev. D 101, 042001 (2020).

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First direct detection constraint on mirror dark matter kinetic mixing using LUX 2013 data, D. S. Akerib et al., (LUX Collaboration), Phys. Rev. D 101, 012003 (2020).

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Atmospheric charged k/ ratio and measurement of muon annual modulation with a 12-liter liquid 13. Characterization of high-purity germanium (Ge) crystals for developing novel Ge detectors, M.-S. Raut, H. Mei, D.-M. Mei, S. Bhattarai, W.-Z. Wei, R. Panth, P. Acharya, G.-J. Wang, arXiv:2002.07706. scintillation detector at Soudan, C. Zhang and D.-M. Mei, EPJC 79 (2019) 825, arXiv: 1904.12730.

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Fabrication and Characterization High-Purity Germanium Detectors with Amorphous Germanium Contacts, X.-H. Meng Meng, G.-J. Wang, M.-D. Wagner, H. Mei, W.-Z. Wei, J. Liu, G. Yang and D.-M. Mei, arXiv:1810.05662. Journal of Instrumentation, Volume 14, February 2019, P02019.

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Results of a Search for sub-GeV Dark Matter Using 2013 LUX data, D. S. Akerib et al., (LUX Collaboration), Phys. Rev. Letters, 122 (2019) 131301.

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Improved measurements of the beta-decay response of liquid xenon with the LUX detector, D. S. Akerib et al. (LUX Collaboration), Phys. Rev. D 100, 022002 (2019).

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Investigation of Amorphous Germanium Contact Properties with Planar Detectors Made from Home- Grown Germanium Crystals, W.-Z. Wei, X.-H. Meng, Y.-Y. Li, J. Liu, G.-J. Wang, H. Mei, G. Yang, D.- M. Mei, and C. Zhang, arXiv: 1809.04111. Journal of Instrumentation, Volume 13, December 2018, P012026.

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Dark matter (DM) searches through studying DM-nucleon coupling strength, D.-M. Mei and W.-Z. Wei, Physics Letters B 785 (2018) 610-614.

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Direct detection of MeV-scale dark matter utilizing germanium internal amplification for the charge created by the ionization of impurities, D.-M. Mei et al., Eur. Phys. J. C (2018) 78:187.

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Electrical conductivity of high-purity germanium crystals at low temperature, G. Yang, Kyler Kooi, Guojian Wang, Hao Mei, Yangyang Li, and Dongming Mei, Applied Physics A, 124 (2018) 381.

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The electrical properties and distribution of indium in germanium crystals, Guojian Wang, Hao Mei, Xianghua Meng, Dongming Mei, Gang Yang, Materials Science in Semiconductor Processing, 2018, 74, 342-346.

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(Majornana Collaboration), Phys. Rev. Lett. 120, 132502 (2018).

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Calibration, event reconstruction, data analysis, and limit calculation for the LUX dark matter experiment, D. S. Akerib et al. (LUX Collaboration), Phys. Rev. D 97, 102008 (2018).

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Liquid scintillation measurements and pulse discrimination in the LUX dark matter detector, D. S. Akerib et al. (LUX Collaboration), Phys. Rev. D 97, 112002 (2018).

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Electrical conductivity of high-purity germanium crystals at low temperature, G. Yang, Kyler Kooi, Guojian Wang, Hao Mei, Yangyang Li, and Dongming Mei, Applied Physics A, 124 (2018)381.

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GEMADARC R&D Activities and Challenges for next generation detectors, International Workshop on Germanium Detectors and Technologies, December 5th, 2018, Knoxville, TE, USA.

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Seminar: Dark Matter and Cosmology, Yunnan University, Kunming, June 26, 2018.

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Average energy expended per e-h pair for germanium-based dark matter experiments, W.-Z. Wei and D.- M. Mei, Journal of Instrumentation 12 (2017) P04022. arXiv:1602.08005.

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A comprehensive study of low-energy response for xenon-based dark matter experiments, L. Wang and D.-M. Mei, Journal of Physics G: Nuclear and Particle Physics 44 (2017) 055001, arXiv: 1604.01083.

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The impact of neutral impurity concentration on charge drift mobility in n-type germanium, H. Mei, G.- W. Wang, G. Yang, D.-M. Mei, Journal of Instrumentation 12 (2017) P07003, arXiv:1705.09562.

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Observation of annual modulation induced by rays from ( , ) reactions at the Soudan Underground Laboratory, A. Tiwari, C. Zhang, D.- M. Mei and P. Cushman, Physics Review C 96 (2017) 044609, arXiv:1706.00100.

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Cosmogenic activation of germanium used for tonne-scale rare event search experiments, W.-Z. Wei, D.- M. Mei, C. Zhang, arXiv: 1706.05324; Astroparticle Physics, 96 (2017) 24-31.

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Results from a search for dark matter in the complete LUX, D. S. Akerib et al. (LUX Collaboration), 18. Black Hiils State University Underground Campus, B. Mount et al. (BHUC collaboration), Applied Phys. Rev. Lett. 118, (2017) 021303.

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Radiation and Isotopes 126 (2017) 130-133.

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Invited Talk: PIRE-GEMADARC, Germanium detectors and technology workshop at LBNL, Dec. 4-5, 2017, LBNL.

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Seminar: Direct Dark Matter Searches, Yangtze University, Jingzhou, China. Nov. 23 2017.

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Development of Ge detectors with internal amplification for MeV-scale dark matter detection, Conference on Science at the Sanford Underground Research Facility, May 12-16, 2017, South Dakota Schools and Mines.

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Direct detection of MeV-scale dark matter utilizing germanium internal amplification for the charge created by the ionization of impurities, U.S. Cosmic Vision: New Ideas in Dark Matter (23-March 25, 2017).

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Discrimination of nuclear and electronic recoil events using plasma effect in germanium detectors, W.-Z. Wei, J. Liu, and D.-M. Mei, arXiv:1605.05244. JINST 11 (2016) no.07, P-07008.

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Cosmogenic activation of materials used in rare event search experiments, C. Zhang, D.-M. Mei, V. A. Kudryavtsev, S. Fiorucci, arXiv:1603.00098, AstroParticle Physics 84 (2016) 62-69.

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Impact of nuclear impurity concentration on charge drift mobility in germanium, H. Mei, D.-M. Mei, G.-J. Wang, G. Yang, arXiv: 1607.03032. JINST 11 (2016) no.12, P12021.

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Results on the spin dependent scattering of weakly interacting massive particles on nucleons from the Run-3 data of the LUX experiment, D. S. Akerib et al., Phys. Rev. Lett. 116 (2016) 161302.

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Improved Limits on Scattering of Weakly Interacting Massive Particles from Reanalysis of 2013 LUX data, D. S. Akerib et al. (LUX Collaboration), Phys. Rev. Lett. 116, 161301 (2016).

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FPGA-based trigger system for the LUX dark matter experiment, D. S. Akerib et al. (LUX Collaboration), Rev. D 93, 072009 (2016).

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Nucl. Instr. Meth. A818 (2016) 57-67.

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Seminar: Next generation Ge-based dark matter experiments, Chengdu, Si Chuan University, Nov.17, 2016.

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Seminar: Development of large-size germanium detectors for ton-scale Ge-based experiments, Jingzhou, Yangtze University, China, Nov. 22, 2016.

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Study on the properties of high-purity germanium crystals, G. Yang, H. Mei, Y.-T. Guan, G.-J. Wang, D.- M. Mei, K. Irmscher, IOP Science Journal of Physics: Conference Series, V606 (2015) 012013.

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Zone refinement of germanium crystals, G. Yang, Y.-T. Guan, F.-Y. Jian, M.-D. Wanger, H. Mei, G.-J. Wang, S.-M. Howard, D.-M. Mei, A. Nelson, J. Marshai, K. Fitzgerald, C. Tenzin and X. Ma, IOP Science Journal of Physics: Conference Series, V606 (2015) 012014.

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Study well-shaped germanium detectors for low-background counting, W.-Z. Wei, D.-M. Mei, and C. Zhao, IOP Science Journal of Physics: Conference Series, V606 (2015) 012019.

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Update on the MiniCLEAN Dark Matter Experiment, K. Rielage et al., arXiv:1403.4842. Phys. Procedia 61 (2015) 144-152.

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Invited Talk: Crystal Growth and Detector Development at USD, Symposium on Germanium Detectors and Technologies, Ringburg, Germany, Oct. 18-24, 2015.

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Invited Talk: PIRE: A Global Collaboration on Advanced Germanium Detectors and Technologies, Symposium on Germanium Detectors and Technologies, Ringburg, Germany, Oct. 18-24, 2015.

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Invited Talk: A p-type point-contact HPGe detector with amorphous Ge surface, Symposium on Germanium Detectors and Technologies, Ringburg, Germany, Oct. 18-24, 2015.

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Invited Talk: Low Energy Response for Dark Matter Searches, An International Workshop on Low Energy Calibration at University of Chicago, September 23, 2015.

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Seminar: Development of Large-Size Germanium Detectors for Rare Event Physics, Seminar at Lawrence Berkeley National laboratory, August 21, 2015.

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Invited Talk: Development of Large-Size Germanium Detectors for Dark Matter Searches, Workshop on Dark Matter Searches, Lawrence Berkeley National Laboratory, June 8-9, 2015.

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Invited Talk: Development of Large-Size Germanium Detectors for Neutrinoless Double-Beat Decay, Conference on Science at Sanford Underground Research Facility, May 17-20, 2015.

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Measuring Muon-Induced Neutrons with Large Liquid Scintillation Detector at Soudan Mine , C. Zhang, D.-M. Mei, arXiv: 1407.3246. Phys. Rev D 90 (2014) 122003.

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G. Yang, Jayesh Govani, Hao Mei, Yutong Guan, Guojian Wang, Mianliang Huang and Dongming Mei, "Investigation of influential factors on the purification of zone-refined germanium ingot," Crystal Research and Technology, V 49, (2014) 269-275.

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Improving Photoelectron Counting and Particle Identification in Scintillation Detectors with Bayesian Techniques, M. Akashi-Ronquest et al., arXiv:1408.1914. Astropart. Phys. 65 (2014) 40 -54.

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Radiogenic and Muon-Induced Backgrounds in the LUX Dark Matter Detector, D.S. Akerib et al., arXiv: 1403.1299, Astroparticle Physics V62 (2014) 33-46.

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First results from the LUX dark matter experiment at the Sanford Underground Research Facility, D.S. Akerib et al., (LUX Collaboration), Phys. Rev. Lett 112 (2014)091303.

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A Segmented, Enriched N-type Germanium Detector for Neutrinoless Double Beta-Decay Experiments , L.E. Leviner et al., Nucl. Instrum. Meth. A375 (2014) 66-77.

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Invited Talk at Southwest Jiaotong University: Germanium Crystal Growth and Detector Development at USD for Large-Scale Experiments, Chendgu, China, May 2014.

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Invited Talk at Sichuan University: Underground Experiments for New Science, Chengdu China, May 24. Invited Talk at China University of Geoscience in Wuhan: Germanium Crystal growth and Detector Development, Wuhan China, May 2014.

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Invited Talk at Yangtze University: To be or not to be: Dark Matter, Jingzhou China, May 2014.

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Invited Talk at Yangtze University: Neutrinoless Double-Beta Decay, Jingzhou China, May 2014.

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Large crystal growth and detector development at USD, APS DNP, Hawaii, Oct. 8th, 2014.

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Development of next generation germanium detector for rare event physics, the 2nd Workshop on Germanium Detectors and Technologies, Vermillion, SD, 14-17th September 2014.

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Dark Matter and Neutron Physics, Sigma Pi Sigma Seminar, USD, 2014.

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CUBED low-background count facility at SURF, APS April meeting, Savannah, GA, April 4-8, 2014.

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Ionization Efficiency Study for Low Energy Nuclear Recoils in Germanium, D. Barker, W.-Z. Wei, D.-M. Mei, and C. Zhang, Astropartcile Physics. 48 (2013) 8-15.

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Measuring Fast Neutrons using Large Liquid Scintillation Detector for Ultra-Low Background Experiments, C. Zhang, D.-M. Mei, P. Davis, B. Woltman, F. Gray, Nucl. Instr. And Meth. A, 729 (2013)

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G. Yang, D.-M. Mei, J. Govani, G. Wang, M. Khizar, "Effect of annealing on contact performance and electrical properties of p-type high purity germanium single crystal," Applied Physics A, DOI 10.1007/s00339-012-7518-x (2013).

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G. Wang, Y. Sun, Y. Guan, D.-M. Mei, G. Yang, A. A. Chiller, B. Gray, "Optical Methods in Orientation of High-Purity Germanium Crystal," Journal of Crystallization Process and Technology, 3, 60-63 (2013).

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Neutrinoless Double-Beat Decay, Wuhan China, May 2013.

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Geo-neutrino Physics at CJPL, Asmilomar, CA, 13th International Conference on Topics in Astroparticle, September 8 - 13, 2013.

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Germanium Detector Response to Nuclear Recoils in Search for Dark Matter, D. Barker, D.-M. Mei, arXiv: 1203.4620. Astropart. Phys. 38 (2012) 1-6.

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Muon-Induced Background Study for an Argon-Based Long Baseline Neutrino Experiment, D. Barker, D.-M. Mei, Chao Zhang, arXiv: 1202.5000. Phys. Rev. D 86, 054001 (2012).

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G. Wang, Y. Sun, G. Yang, W. Xiang, Y. Guan, D.-M. Mei, C. Keller and Y.-D. Chan, "Development of large size high-purity germanium crystal growth," Journal of Crystal Growth, 352 (1), 27-30 (2012).

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Invited Talk at Tsinghua University: Germanium Crystal Growth and Detector Development for Ton- Scale Neutrinoless Double-Beta Decay Experiment, Beijing China, May, 2012.

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Invited Talk at Sichuan University: Germanium Detector for Dark Matter Detection, Chengdu, China, 18. Invited Talk at Shanghai Jiaotong University: Ton-Scale neutrinoless double-beta decay experiment in 19. Invited Talk at China Science and Technology University: Large-scale solar neutrino experiment in 20. Invited Talk at Three Gorges University: Dark Matter Searches in US, Yichang, China, May 2012.

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Invited Talk at Huazhong Normal University: Underground Experiments for Dark Matter and May 2012.

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Summary of Cosmogenic Simulation Results, LBNE report, LBNE collaboration meeting, December 1st, 36. Ton-Scale neutrinoless double-beta decay experiment in China, International conference on Flavor Physics and CP violation, Hefei, China, May 24, 2012.

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Invited Talk: 2011 Cosmogenic Activities and Background Workshop - Berkeley, LBNL, April 14, 39. DOE Site Visit Review Talks for Crystal Growth and Detector Development at Homestake for DUSEL 2012, Houston.

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Crystal growth underground breed extra-sensitive detectors, PAC review, SURF, December 114th, 2011.

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Measuring Neutrinoless Double Electron Capture with 124Xe in Xenon Experiments, D.-M. Mei, J. Spaans, C. Zhang, APS April Meeting, B8 5, Feb. 13-17, 2010, Washington D.C. 42. Improvement of Geant4 simulation in Nuclear Internal Conversion Model, C. Zhang, D.-M. Mei, APS April Meeting, B8 10, Feb. 13-17, Washington D.C. 43. External Background Characterization of Homestake Mine for DUSEL, K. Thomas, D.-M. Mei, C. Zhang, APS April Meeting, P10 6, Feb. 13-17, Washington D.C. 44. CUBED Crystal Growth, D.-M. Mei for the CUBED Collaboration, APS March Meeting, Dallas, TX, 45. CUBED Crystal Growth, D.-M. Mei for the CUBED Collaboration, SD Academy, 2011.

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Invited talk at Huazhong Normal University in China, Ultra-Low Background Experiments at DUSEL, 2011.

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Early Results on Radioactive Background Characterization for Sanford Laboratory and DUSEL Experiments, D.-M. Mei et al., arXiv: 0912.0211, Astroparticle physics 34 (2010) 33-39.

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Predication of Underground Argon Content for Dark Matter Experiments, D.-M. Mei et al., arXiv:0912.5368, PRC 81 (2010) 055802.

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Probing the Underground Science beyond the Standard Model with Ultra-Low Background Experiments at Sanford Lab/DUSEL Nuclear Physics A, Volume 834, Issues 1-4, 1 March 2010, Pages 809c-812c D.- M. Mei.

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Systematic Effects in Pulse Shape Analysis of HPGe Detector Signals for 0 , V. M. Gehman, S. R. Elliott, and D. M. Mei, ArXiv: 0907.2940, Nucl. Instr. And Meth. A 615 (2010) 83-92.

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Depletion of 39Ar for Liquid Argon detectors of Dark Matter Search Nuclear Physics A, Volume 834, Issues 1-4, 1 March 2010, Pages 813c-815c Yongchen Sun, Dongming Mei , Jason Spaans, Christina Keller.

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CUBED: South Dakota 2010 Research Center For Dusel Experiments Nuclear Physics A, Volume 834, Issues 1-4, 1 March 2010, Pages 816c-818c Christina Keller, Drew Alton, Xinhau Bai, Dan Durben, Jaret Heise, Haiping Hong, Stan Howard, Chaoyang Jiang, Kara Keeter , Robert McTaggart, Dana Medlin, Dongming Mei , Andre Petukhov, Joel Rauber, Bill Roggenthen, Jason Spaans, Yongchen Sun, Barbara Szczerbinska, Keenan Thomas, Michael Zehfus, Chao Zhang.

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Development of a Custom CRDS-based Trace Gas Analyzer for Argon and Xenon Nuclear Physics A, Volume 834, Issues 1-4, 1 March 2010, Pages 819c-822c K.J. Keeter, D. Durben, M. Zehfus, C. Galbiati, D. Mei, Y. Sun , A. Alton.

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Studies on cosmogenic production as a background for rare physics processes Nuclear Physics A, Volume 834, Issues 1-4, 1 March 2010, Pages 823c-825c Z.-B. Yin, D.-M. Mei, S.R. Elliott.

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Astroparticle Physics with a Customized Low-Background Broad Energy Germanium Detector. By the Majorana Collaboration (C. E. Aalseth et al.) Jul 2010, e-Print: arXiv: 1007.3231 [nucl-ex].

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Cosmic Ray Muon Flux at the Sanford Underground Laboratory at Homestake. F. E. Gray, C. Ruybal, J. Totushek, D.-M. Mei, K. Thomas, C. Zhang, Jul 2010, e-Print: arXiv:1007.1921 [nucl-ex], NIM A 638

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The Majorana Project. By Majorana Collaboration (C. E. Aalsethrt al.). J. Phys. Conf. Ser. 203:012057, 2010, e-Print: arXiv: 0910.4598 [nucl-ex].

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The LUX dark matter search. D. N. McKinsey et al., 2010. J. Phys. Conf. Ser. 203:012026, 2010.

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Status of the LUX Dark Matter Search. S. Fiorucci et al., Dec. 2009. AIP Conf. Proc. 1209:977-980, 2010.

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Invited Talk at Underground Crystal Growth Facility at DUSEL, Invited talk on Workshop on Germanium-Based Detectors and Technology, May 18-20, 2010, Berkeley, CA.

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Update on External Background Characterization of Homestake Mine for Sanford Lab and DUSEL, C. Zhang, D.-M. Mei, K. Thomas, F. Gray, J. Heise, D. Durben, APS DNP, HD 4, Nov. 2-6, 2010, Santa Fe, NM.

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Segmented CdWO4 detector for low background experiments at DUSEL, D.-M. Mei, Y.-C. Sun, A. Day, K. Thomas, O. Perevozchikov, APS DNP, HD 8, Nov. 2-6, 2010, Santa Fe, NM.

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Argon Depletion for a Large Scale Dark Matter Detector, D. Byram, J. Spaans, D.-M. Mei, Y.-C. Sun, C. Keller, D. Nowotny, APS DNP, HD 9, Nov. 2-6, 2010, Santa Fe, NM.

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Evaluation of ( ,n) Induced Neutrons as a Background for Dark Matter Experiments, D.-M. Mei, C. Zhang, A. Hime, ArXiv: 0812.4307, 12/22/2008, Nucl. Instr. And Meth. A 606 (2009) 651- 660.

Found on CV

Cosmogenic Production as a background in searching for rare physics processes, D.-M. Mei, Z.-B. Yin, S. R. Elliott, arXiv: 0903.2272, Astropart. Phys. 31 (2009) 417-420.

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Neutron inelastic scattering and reactions in natural Pb as a background in neutrinoless double-beta decay experiments, Guiseppe, V. E.; Devlin, M.; Elliott, S. R.; Fotiades, N.; Hime, A.; Mei, D. -M.; Nelson, R. O.; Perepelitsa, D. V. , arXiv:0809.5074, 09/2008, PRC 79, 054604 (2009).

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The Majorana Demonstrator: A R & D project towards a tonne-scale germanium neutrinoless double-beta decay search. By Majorana Collaboration (C. E. Aalsech et al.) July 2009, AIP Conf. Proc. 1182:88-91, 2009. E-Print: arXiv:0907.1581 [nucl-ex].

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Invited Talk at the Institute of High Energy Physics (IHEP), Academic Sinica, Beijing, China, August 16th, 2009, Neutrinoless Double-Beta Decay.

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Invited talk at University of Delaware, CUBED research Activities, June 4th, 2009

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Center for Ultra-Low Background Experiments at DUSEL (CUBED), APS DNP, Hawaii, Oct. 18th, 2009.

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Measuring Muon-Induced Processes at Homestake, APS DNP, Hawaii, Oct. 18th, 2009.

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A Tookit for Calculating (alpha, n) Neutron Yield and Energy Spectrum for DUSEL Experiments, APS DNP, Hawaii, Oct. 18th, 2009.

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CdWO4 and APD for Low Energy Neutrino Experiments at DUSEL, APS DNP, Hawaii, Oct. 18th, 2009.

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Depleted Argon as Dark Matter Detector at DUSEL, APS DNP, Hawaii, Oct. 18th, 2009.

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Depleted Argon as a dark matter detector at DUSEL, APS April Meeting, Denver, T12, 2009.

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Gamma-ray flux at Different Levels in the Homestake Mine Measured with NaI detectors, APS April 61. Measured Muon and Neutron Flux at Different Levels in the Homestake Mine, APS Apr. meeting, Meeting, Denver, T12, 2009.

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Monte Carlo Simulation of Homestake Background, APS April Meeting, Denver, T12, 2009.

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Radon as a Source of External Background at Homestake Mine, APS April Meeting, Denver, W12 2009.

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A Model of Nuclear Recoil Scintillation Efficiency in Noble Liquids, D.-M. Mei, Z.-B. Yin, L. C. Stonehill, and A. Hime, ArXiV: 0712.2470, Astroparticle Physics, 30 (2008) 12-17.

Found on CV

Neutrons Inelastic Scattering Processes as a Background for Double-Beta Decay Experiments, D.-M. Mei, S. R. Elliott, V. M. Gehman, A. Hime, and K. Kazkaz, Nucl-ex/0704.0306, PRC 77, 054614 (2008).

Found on CV

Measuring External Sources of Background at Homestake, APS April Meeting, St. Louis, Apr. 12-15, 65. Depletion of 39Ar for Direct Dark Matter Experiments, APS April Meeting, St. Louis, MO, April 12-15, 66. A Model of Nuclear Recoil Scintillation Efficiency in Noble Liquids, APS DNP, Oakland, CA, Oct.23- 67. DUSEL Low-Background Counting Facility at Homestake, The DUSEL Workshop, April 26-28, Lead, 68. External Sources of Background Evaluation for DUSEL, The DUSEL Workshop, Aprill 26-28, Lead, 2008.

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DUSEL Research Projects, Invited seminar in SDSTC, Sioux Falls, August 19, 2008.

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DUSEL Research Projects, Invited seminar in Sigma XI, USD, Oct.21, 2008.

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Invited talk at Three Gorges University in China, Low Energy Neutrino Physics at DUSEL, July 4th, June 30th, 2007.

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Muon-Induced Background Study for Underground Laboratories, D.-M. Mei and A. Hime, PRD. V.73, 053004 (2006), astro-ph/0512125 (2005).

Found on CV

Depth-sensitivity relation (DSR) for underground laboratories, D.-M. Mei, S. Elliott, V. Gehman, A.Hime and K.Kazkaz, Proceedings of PANIC05, Santa Fe, Oct. 2005. http://www.panic05.lanl.gov/proceedings.

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Measurement of Neutrino Oscillation with KamLAND: Evidence of Spectral Distortion, The KamLAND collaboration, PRL V.94, 081801 (2005), hep-ex/0406035.

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A High Sensitivity Search for Anti-Neutrinos from the Sun and other Sources at KamLAND, The KamLAND collaboration, PRL V.92, 071301 (2004), hep-ex/0310047.

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A High Sensitivity Search for Nu-e-bar's from the Sun and Other Sources at KamLAND, The KamLAND 58. First Results from KamLAND: Evidence for Reactor Anti-Neutrino Disappearance, the KamLAND Collaboration, PRL, V92, 071301, (2004).

Found on CV

Investigation of the electrical conduction mechanisms in p-type amorphous (a-Ge) Used as a-Ge contacts for Ge detectors, S. Bhattarai, R. Panth, W.-Z. Wei, H. Mei, D.-M. Mei, M.-S. Raut, P. Acharya, and G.-J. Wang, arXiv:2002.07707.

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Collaboration, NIM, A 456 (2000) 121-125.

Found on CV

Results from the Analysis of Data Collected with a 50 m2 RPC Carpet at YangBaJing, the ARGO-YBJ 61. A Site Search for A Cosmic Ray Station Above 6000 M Elevation in Tibet'', L.W.Jones and D.M. Mei, 62. Sun's Shadow by 10 TeV Cosmic Rays under the Influence of the Solar Activity, the Tibet ASg Collaboration, Adv. Space Res. vol 23 611 (1999).

Found on CV

Shadowing of Cosmic Rays by the Sun near Maximum or at the Declining Phase of Solar Activity, the Tibet ASg Collaboration, ApJ, 464, 954-958 (1996).

Found on CV

The Cosmic Ray Energy Spectrum between 1014.5 and 1016.3 eV Covering the ``Knee'' Region, the Tibet ASg Collaboration, ApJ, 461, 408-414 (1996).

Found on CV

Search for 10 TeV Burst-Like Events Coincident with the BATSE Burst Using the Tibet Air Shower Array, the Tibet ASg Collaboration, A &A, 311, 919-926 (1996).

Found on CV

Neural Network Approach to Obtain the Primary Proton Flux at the Knee from a Hybrid-Experiment of EC and AS Array in Tibet, the Tibet ASg Collaboration, NIM, A376, 263 (1996).

Found on CV

Search for 10 TeV Gamma-Ray Emission from Active Galactic Nuclei with the Tibet Air Shower Array, the Tibet ASg Collaboration, ApJ, 429, 634-637 (1994).

Found on CV

Cosmic Ray Deficit from the Directions of the Moon and the Sun Detected with the Tibet Air Shower Array, the Tibet ASg Collaboration, Phys. Rev., D47, 2675-2681 (1993).

Found on CV

Intensity of Protons at ``Knee'' of the Cosmic Ray Spectrum, the Tibet ASg Collaboration, Astrop. Phys., 1, 257-267 (1993).

Found on CV

Direct Evidence of the Interplanetary Magnetic Field Effect on the Cosmic-Ray Shadow by the Sun, the Tibet ASg Collaboration, ApJ, 415, L147-L150 (1993).

Found on CV

Search for Steady Emission of 10-TeV Gamma Rays from the Crab Nebula, Cygnus X-3 and Hercules X- 1 Using the Tibet Air Shower Array, the Tibet ASg Collaboration, Phys. Rev. Lett., 69, 2468-2471 (1992).

Found on CV

Photodiode Sensed Scintillation Counter for Detection of a Large Number of Cascade Shower Electrons, the Tibet ASg Collaboration, NIM, A300, 202-206, (1991).

Found on CV

Development and Performance Test of a Prototype Air Shower Array for Search for Gamma Ray Point Sources in the Very High Energy Region, the Tibet ASg Collaboration, NIM, A288, 619-631, (1990).

Found on CV

A Monitoring System for Fast-Timing Scintillation Counters Used for Detection of Air Showers, the Tibet Asg Collaboration, NIM, A285, 532-539, (1989).

Found on CV

FIRST AUTHOR OR CORRESPONDING AUTHOR 1. Observation of Time-Dependent Internal Charge Amplification in a Planar Germanium Detector at Cryogenic Temperature, P. Acharya, M. Fritts, D.-M. Mei, V. Mandic, G.-J. Wang, R. Mahapatra, M. Platt, arXiv: 2211.16256.

Found on CV

The decay Q Value of Neutrinoless Double-Beta Decay, D.-M. Mei, W.-Z. Wei, arXiv: 2206.07151.

Found on CV

Evaluation of cosmogenic production of 39Ar and 42Ar for rare-event physics using underground argon, C. 4. Evidence of cluster dipole states in germanium det4ectors operating at temperatures below 10 K, D.-M. Mei, R. Panth, H. Mei, S. Bhattarai, M. Raut, P. Acharya, G.-J. Wang, AIP Advances 12, 065113

Found on CV

Development of Planar P-Type Point Contact Germanium Detectors for Low-Mass Mark Matter Searches, W.-Z. Wei, H. Mei, K. Kooi, D.-M. Mei, J. Liu, J.-C. Li, R. Panth, G.-J. Wang, arXiv: 2105.02109. Eur.

Found on CV

Low-Energy Solar Neutrino Detection Utilizing Advanced Germanium Detectors, S. Bhattarai, D.-M. Mei, M.-S. Raut, arXiv: 2104.14352.

Found on CV

Measuring Double-Electron Capture with Liquid Xenon Experiments, D.-M. Mei et al., Phys. Rev. C 89

Found on CV

Search for Neutrinoless Double-b decay in 76Ge with the Majorana Demonstrator, C. E. Aalseth et al.

Found on CV

Tritium calibration of the LUX dark matter experiment, D. S. Akerib et al. (LUX Collaboration), Phys.

Found on CV

High-purity germanium crystal growth at the University of South Dakota, Guojian Wang, Hao Mei, Dongming Mei, Yutong Guan, and Gang Yang, IOP Science Journal of Physics: Conference Series, V606

Found on CV

G. Wang, Yutong Guan, Hao Mei, Dongming Mei, Gnag Yang, Jayesh Govani, Muhammad Khizar, "Dislocation density control in high-purity germanium crystal growth," Journal of Crystal Growth, 393

Found on CV

G. Yang, G. Wang, W. Xiang, Y. Guan, Y. Sun, D.-M. Mei, B. Gray, Y.-D. Chan, "Radial and axial impurity distribution in high-purity germanium crystals," Journal of Crystal Growth,352 (1), 43-46

Found on CV

A Detailed Look at the First Results from the Large Underground Xenon (LUX) Dark Matter Experiment, Matthew Szydagis et al., arXiv:1402.3731.

Found on CV

The Majorana Double Beta Decay Experiment: Present Status, E. Aguayo et al., DOI:10.1142/9789814436830_0035.

Found on CV

Fluorescence Efficiency and Visible Re-emission Spectrum of Tetraphenyl Butadiene Films at Extreme Ultraviolet Wavelengths, V. M. Gehman, S. R. Seibert, K. Rielage, A. Hime, Y. Sun, D.-M. Mei, J. Maassen, D. Moore, arXiv: 1104.3259.

Found on CV

Pulse Shape Analysis in Segmented Detectors as a technique for Background Reduction in Ge Double- Beta Decay experiments, S.R. Elliott, V.M. Gehman, K. Kazkaz, D.-M. Mei and A.R. Young, NIM A 558

Found on CV

High Altitude Test of RPCs for the Argo YBJ Experiment, the ARGO-YBJ Collaboration, NIM, A 443

Found on CV

The Use of RPC in the ARGO-YBJ Project, the ARGO-YBJ Collaboration, Nuclear Physics B (Proc. 64. The ARGO-YBJ Detector and High Energy GRBs, the ARGO-YBJ Collaboration, Astron. Astrophys.

Found on CV

NSF PIRE Consortium, SD 100th Academy and Science Anniversary, Cedar Shore Resort, SD, April 11.

Found on CV

Crystal growth and detector development at USD, International Symposium on germanium detector and technology, Tsinghua University, Beijing, China; 33. Development of large germanium detector for rare event physics, International Symposium on germanium detectors and technology, Tsinghua University, Beijing, China.

Found on CV

External Background Characterization at Homestake for DUSEL Experiments, APS DNP, Hawaii, Oct.

Found on CV