Dr. Kimberly Palladino

A next-generation liquid xenon observatory for dark matter and neutrino physics

Journal of Physics G Nuclear and Particle Physics IOP Publishing 50:1 (2022) 13001

Authors:

J Aalbers, Ss AbdusSalam, K Abe, V Aerne, F Agostini, S Ahmed Maouloud, Ds Akerib, Dy Akimov, J Akshat, Ak Al Musalhi, F Alder, Sk Alsum, L Althueser, Cs Amarasinghe, Fd Amaro, A Ames, Tj Anderson, B Andrieu, N Angelides, E Angelino, J Angevaare, Vc Antochi, D Antón Martin, B Antunovic, E Aprile, Hm Araújo, Je Armstrong, F Arneodo, M Arthurs, P Asadi, S Baek, X Bai, D Bajpai, A Baker, J Balajthy, S Balashov, M Balzer, A Bandyopadhyay, J Bang, E Barberio, Jw Bargemann, L Baudis, D Bauer, D Baur, A Baxter, Al Baxter, M Bazyk, K Beattie, J Behrens, Nf Bell

Abstract:

<jats:title>Abstract</jats:title> <jats:p>The nature of dark matter and properties of neutrinos are among the most pressing issues in contemporary particle physics. The dual-phase xenon time-projection chamber is the leading technology to cover the available parameter space for weakly interacting massive particles, while featuring extensive sensitivity to many alternative dark matter candidates. These detectors can also study neutrinos through neutrinoless double-beta decay and through a variety of astrophysical sources. A next-generation xenon-based detector will therefore be a true multi-purpose observatory to significantly advance particle physics, nuclear physics, astrophysics, solar physics, and cosmology. This review article presents the science cases for such a detector.</jats:p>

Fast and flexible analysis of direct dark matter search data with machine learning

Physical Review D American Physical Society (APS) 106:7 (2022) 072009

Authors:

DS Akerib, S Alsum, HM Araújo, X Bai, J Balajthy, J Bang, A Baxter, EP Bernard, A Bernstein, TP Biesiadzinski, EM Boulton, B Boxer, P Brás, S Burdin, D Byram, N Carrara, MC Carmona-Benitez, C Chan, JE Cutter, L de Viveiros, E Druszkiewicz, J Ernst, A Fan, S Fiorucci, RJ Gaitskell, C Ghag, MGD Gilchriese, C Gwilliam, CR Hall, SJ Haselschwardt, SA Hertel, DP Hogan, M Horn, DQ Huang, CM Ignarra, RG Jacobsen, O Jahangir, W Ji, K Kamdin, K Kazkaz, D Khaitan, EV Korolkova, S Kravitz, VA Kudryavtsev, E Leason, BG Lenardo, KT Lesko, J Liao, J Lin, A Lindote, MI Lopes, A Manalaysay, RL Mannino, N Marangou, DN McKinsey, D-M Mei, JA Morad, A St. J. Murphy, A Naylor, C Nehrkorn, HN Nelson, F Neves, A Nilima, KC Oliver-Mallory, KJ Palladino, C Rhyne, Q Riffard, GRC Rischbieter, P Rossiter, S Shaw, TA Shutt, C Silva, M Solmaz, VN Solovov, P Sorensen, TJ Sumner, N Swanson, M Szydagis, DJ Taylor, R Taylor, WC Taylor, BP Tennyson, PA Terman, DR Tiedt, WH To, L Tvrznikova, U Utku, A Vacheret, A Vaitkus, V Velan, RC Webb, JT White, TJ Whitis, MS Witherell, FLH Wolfs, D Woodward, X Xian, J Xu, C Zhang

Design and production of the high voltage electrode grids and electron extraction region for the LZ dual-phase xenon time projection chamber

Nuclear Instruments and Methods in Physics Research Section A Accelerators Spectrometers Detectors and Associated Equipment Elsevier 1031 (2022) 165955

Authors:

R Linehan, RL Mannino, A Fan, CM Ignarra, S Luitz, K Skarpaas, TA Shutt, DS Akerib, SK Alsum, TJ Anderson, HM Araújo, M Arthurs, H Auyeung, AJ Bailey, TP Biesiadzinski, M Breidenbach, JJ Cherwinka, RA Conley, J Genovesi, MGD Gilchriese, A Glaenzer, TG Gonda, K Hanzel, MD Hoff, W Ji, AC Kaboth, S Kravitz, NR Kurita, AR Lambert, KT Lesko, W Lorenzon, PA Majewski, EH Miller, ME Monzani, KJ Palladino, BN Ratcliff, JS Saba, D Santone, GW Shutt, K Stifter, M Szydagis, A Tomás, J Va’vra, WL Waldron, RC Webb, RG White, TJ Whitis, K Wilson, WJ Wisniewski

Cosmogenic production of Ar37 in the context of the LUX-ZEPLIN experiment

Physical Review D American Physical Society (APS) 105:8 (2022) 082004

Authors:

J Aalbers, DS Akerib, AK Al Musalhi, F Alder, SK Alsum, CS Amarasinghe, A Ames, TJ Anderson, N Angelides, HM Araújo, JE Armstrong, M Arthurs, X Bai, A Baker, J Balajthy, S Balashov, J Bang, JW Bargemann, D Bauer, A Baxter, K Beattie, EP Bernard, A Bhatti, A Biekert, TP Biesiadzinski, HJ Birch, GM Blockinger, E Bodnia, B Boxer, CAJ Brew, P Brás, S Burdin, JK Busenitz, M Buuck, R Cabrita, MC Carmona-Benitez, M Cascella, C Chan, A Chawla, H Chen, NI Chott, A Cole, MV Converse, A Cottle, G Cox, O Creaner, JE Cutter, CE Dahl, A David, L de Viveiros, JEY Dobson, E Druszkiewicz, SR Eriksen, A Fan, S Fayer, NM Fearon, S Fiorucci, H Flaecher, ED Fraser, T Fruth, RJ Gaitskell, J Genovesi, C Ghag, E Gibson, MGD Gilchriese, S Gokhale, MGD van der Grinten, CB Gwilliam, CR Hall, SJ Haselschwardt, SA Hertel, M Horn, DQ Huang, D Hunt, CM Ignarra, O Jahangir, RS James, W Ji, J Johnson, AC Kaboth, AC Kamaha, K Kamdin, D Khaitan, A Khazov, I Khurana, D Kodroff, L Korley, EV Korolkova, H Kraus, S Kravitz, L Kreczko, VA Kudryavtsev, EA Leason, DS Leonard, KT Lesko, C Levy, J Lee, J Lin, A Lindote, R Linehan, WH Lippincott, X Liu, MI Lopes, E Lopez Asamar, B Lopez-Paredes, W Lorenzon, S Luitz, PA Majewski, A Manalaysay, L Manenti, RL Mannino, N Marangou, ME McCarthy, DN McKinsey, J McLaughlin, EH Miller, E Mizrachi, A Monte, ME Monzani, JA Morad, JD Morales Mendoza, E Morrison, BJ Mount, A St. J. Murphy, D Naim, A Naylor, C Nedlik, HN Nelson, F Neves, JA Nikoleyczik, A Nilima, I Olcina, K Oliver-Mallory, S Pal, KJ Palladino, J Palmer, N Parveen, SJ Patton, EK Pease, B Penning, G Pereira, E Perry, J Pershing, A Piepke, D Porzio, Y Qie, J Reichenbacher, CA Rhyne, A Richards, Q Riffard, GRC Rischbieter, R Rosero, P Rossiter, T Rushton, D Santone, ABMR Sazzad, RW Schnee, PR Scovell, S Shaw, TA Shutt, JJ Silk, C Silva, G Sinev, R Smith, M Solmaz, VN Solovov, P Sorensen, J Soria, I Stancu, A Stevens, K Stifter, B Suerfu, TJ Sumner, N Swanson, M Szydagis, WC Taylor, R Taylor, DJ Temples, PA Terman, DR Tiedt, M Timalsina, WH To, Z Tong, DR Tovey, M Trask, M Tripathi, DR Tronstad, W Turner, U Utku, A Vaitkus, B Wang, Y Wang, JJ Wang, W Wang, JR Watson, RC Webb, RG White, TJ Whitis, M Williams, FLH Wolfs, S Woodford, D Woodward, CJ Wright, Q Xia, X Xiang, J Xu, M Yeh

Direct detection of dark matter-APPEC committee report.

Reports on progress in physics. Physical Society (Great Britain) 85:5 (2022)

Authors:

Julien Billard, Mark Boulay, Susana Cebrián, Laura Covi, Giuliana Fiorillo, Anne Green, Joachim Kopp, Béla Majorovits, Kimberly Palladino, Federica Petricca, Leszek Roszkowski Chair, Marc Schumann

Abstract:

This report provides an extensive review of the experimental programme of direct detection searches of particle dark matter. It focuses mostly on European efforts, both current and planned, but does it within a broader context of a worldwide activity in the field. It aims at identifying the virtues, opportunities and challenges associated with the different experimental approaches and search techniques. It presents scientific and technological synergies, both existing and emerging, with some other areas of particle physics, notably collider and neutrino programmes, and beyond. It addresses the issue of infrastructure in light of the growing needs and challenges of the different experimental searches. Finally, the report makes a number of recommendations from the perspective of a long-term future of the field. They are introduced, along with some justification, in the opening overview and recommendations section and are next summarised at the end of the report. Overall, we recommend that the direct search for dark matter particle interactions with a detector target should be given top priority in astroparticle physics, and in all particle physics, and beyond, as a positive measurement will provide the most unambiguous confirmation of the particle nature of dark matter in the Universe.