Improving sensitivity to low-mass dark matter in LUX using a novel electrode background mitigation technique

Extending the physics reach of the LUX and LZ dark matter experiments by lowering the scintillation threshold

Marangou, Nellie

November 2020

Dark matter experiments searching for weakly interacting massive particles (WIMPs), which are hypoth...

Low-mass dark matter search using ionization signals in XENON100

XENON Collaboration
Aprile, E
Aalbers, J
Agostini, F
et al
Barrow, P
Baudis, L
Ferella, A
Franco, D
Galloway, M
Kessler, G
Kish, A
Mayani, D
Pakarha, P
Wulf, J

January 2016

We perform a low-mass dark matter search using an exposure of 30 kg×yr with the XENON100 detector. ...

New constraints and discovery potential of sub-GeV dark matter with xenon detectors

McCabe, C.

August 2017

Existing xenon dark matter (DM) direct detection experiments can probe the DM-nucleon interaction of...

Improving sensitivity to low-mass dark matter in LUX using a novel electrode background mitigation technique

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

July 2021

This paper presents a novel technique for mitigating electrode backgrounds that limit the sensitivit...

A Search for Lightly Ionizing Particles in the LUX Detector and Research and Development For Future Liquid Xenon Time Projection Chambers

Kamdin, Katayun J

January 2018

The nature of dark matter is one of the most compelling mysteries of modern physics. Liquid xenon de...

Low-mass Dark Matter search with the XENON100 experiment

Tiseni, A.

January 2018

It is hypothesized that 26% of the mass and energy content of the universe consists of Dark Matter. ...

Dark matter searches and study of electrode design in LUX and LZ

Bailey, Adam

October 2016

There is substantial evidence that over 80% of matter in the universe is dark matter – which is non-...

Sub-GeV Dark Matter Searches and Electric Field Studies for the LUX and LZ Experiments

Tvrzníková, Lucie

January 2019

Abundant evidence from cosmological and astrophysical observations suggests that the Standard Model ...

New physics searches with LUX and LZ

Murphy, A. St. J.

January 2019

The frontier of experimental particle physics research, especially astroparticle physics, frequently...

Enhancing the sensitivity of the LUX-ZEPLIN (LZ) dark matter experiment to low energy signals

Akerib, DS
Musalhi, AK Al
Alsum, SK
Amarasinghe, CS
Ames, A
Anderson, TJ
Angelides, N
Araújo, HM
Armstrong, JE
Arthurs, M
Bai, X
Balajthy, J
Balashov, S
Bang, J
Bargemann, JW
Bauer, D
Baxter, A
Beltrame, P
Bernard, EP
Bernstein, A
Bhatti, A
Biekert, A
Biesiadzinski, TP
Birch, HJ
Blockinger, GM
Boxer, B
Brew, CAJ
Brás, P
Burdin, S
Busenitz, JK
Buuck, M
Cabrita, R
Carmona-Benitez, MC
Cascella, M
Chan, C
Chott, NI
Cole, A
Converse, MV
Cottle, A
Cox, G
Cutter, JE
Dahl, CE
Viveiros, L de
Dobson, JEY
Druszkiewicz, E
Eriksen, SR
Fan, A
Fayer, S
Fearon, NM
Fiorucci, S
Flaecher, H
Fraser, ED
Fruth, T
Gaitskell, RJ
Genovesi, J
Ghag, C
Gibson, E
Gokhale, S
Grinten, MGD van der
Gwilliam, CB
Hall, CR
Haselschwardt, SJ
Hertel, SA
Horn, M
Huang, DQ
Ignarra, CM
Jahangir, O
James, RS
Ji, W
Johnson, J
Kaboth, AC
Kamaha, AC
Kamdin, K
Kazkaz, K
Khaitan, D
Khazov, A
Khurana, I
Kodroff, D
Korley, L
Korolkova, EV
Kraus, H
Kravitz, S
Kreczko, L
Krikler, B
Kudryavtsev, VA
Leason, EA
Lesko, KT
Levy, C
Li, J
Liao, J
Lin, J
Lindote, A
Linehan, R
Lippincott, WH
Liu, X
Lopes, MI
Asamar, E Lopez
Paredes, B López
Lorenzon, W
Luitz, S

January 2021

Two-phase xenon detectors, such as that at the core of the forthcoming LZ dark matter experiment, us...

Investigation of background electron emission in the LUX detector

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

November 2020

Dual-phase xenon detectors, as currently used in direct detection dark matter experiments, have obse...

Pulse shape discrimination in the LUX dark matter detector

Khaitan, Dev Ashish
Wolfs, Frank L.H.

January 2020

Thesis (Ph. D.)--University of Rochester. Department of Physics and Astronomy, 2019.Abundant evidenc...

Radiogenic and Muon-Induced Backgrounds in the LUX Dark Matter Detector

Szydagis, Matthew M

January 2014

The Large Underground Xenon (LUX) dark matter experiment aims to detect rare low-energy interactions...

Radiogenic and muon-induced backgrounds in the LUX dark matter detector

Akerib, DS
Araújo, HM
Bai, X
Bailey, AJ
Balajthy, J
Bernard, E
Bernstein, A
Bradley, A
Byram, D
Cahn, SB
Carmona-Benitez, MC
Chan, C
Chapman, JJ
Chiller, AA
Chiller, C
Coffey, T
Currie, A
De Viveiros, L
Dobi, A
Dobson, J
Druszkiewicz, E
Edwards, B
Faham, CH
Fiorucci, S
Flores, C
Gaitskell, RJ
Gehman, VM
Ghag, C
Gibson, KR
Gilchriese, MGD
Hall, C
Hertel, SA
Horn, M
Huang, DQ
Ihm, M
Jacobsen, RG
Kazkaz, K
Knoche, R
Larsen, NA
Lee, C
Lindote, A
Lopes, MI
Malling, DC
Mannino, R
McKinsey, DN
Mei, DM
Mock, J
Moongweluwan, M
Morad, J
Murphy, ASJ
Nehrkorn, C
Nelson, H
Neves, F
Ott, RA
Pangilinan, M
Parker, PD
Pease, EK
Pech, K
Phelps, P
Reichhart, L
Shutt, T
Silva, C
Solovov, VN
Sorensen, P
O'Sullivan, K
Sumner, TJ
Szydagis, M
Taylor, D
Tennyson, B
Tiedt, DR
Tripathi, M
Uvarov, S
Verbus, JR
Walsh, N
Webb, R
White, JT
Witherell, MS
Wolfs, FLH
Woods, M
Zhang, C

January 2015

The Large Underground Xenon (LUX) dark matter experiment aims to detect rare low-energy interactions...

Extending light WIMP searches to single scintillation photons in LUX

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

February 2020

We present a novel analysis technique for liquid xenon time projection chambers that allows for a lo...

Extending the physics reach of the LUX and LZ dark matter experiments by lowering the scintillation threshold

Marangou, Nellie

November 2020

Dark matter experiments searching for weakly interacting massive particles (WIMPs), which are hypoth...

Low-mass dark matter search using ionization signals in XENON100

XENON Collaboration
Aprile, E
Aalbers, J
Agostini, F
et al
Barrow, P
Baudis, L
Ferella, A
Franco, D
Galloway, M
Kessler, G
Kish, A
Mayani, D
Pakarha, P
Wulf, J

January 2016

We perform a low-mass dark matter search using an exposure of 30 kg×yr with the XENON100 detector. ...

New constraints and discovery potential of sub-GeV dark matter with xenon detectors

McCabe, C.

August 2017

Existing xenon dark matter (DM) direct detection experiments can probe the DM-nucleon interaction of...

Improving sensitivity to low-mass dark matter in LUX using a novel electrode background mitigation technique

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

July 2021

This paper presents a novel technique for mitigating electrode backgrounds that limit the sensitivit...

A Search for Lightly Ionizing Particles in the LUX Detector and Research and Development For Future Liquid Xenon Time Projection Chambers

Kamdin, Katayun J

January 2018

The nature of dark matter is one of the most compelling mysteries of modern physics. Liquid xenon de...

Low-mass Dark Matter search with the XENON100 experiment

Tiseni, A.

January 2018

It is hypothesized that 26% of the mass and energy content of the universe consists of Dark Matter. ...

Dark matter searches and study of electrode design in LUX and LZ

Bailey, Adam

October 2016

There is substantial evidence that over 80% of matter in the universe is dark matter – which is non-...

Sub-GeV Dark Matter Searches and Electric Field Studies for the LUX and LZ Experiments

Tvrzníková, Lucie

January 2019

Abundant evidence from cosmological and astrophysical observations suggests that the Standard Model ...

New physics searches with LUX and LZ

Murphy, A. St. J.

January 2019

The frontier of experimental particle physics research, especially astroparticle physics, frequently...

Enhancing the sensitivity of the LUX-ZEPLIN (LZ) dark matter experiment to low energy signals

Akerib, DS
Musalhi, AK Al
Alsum, SK
Amarasinghe, CS
Ames, A
Anderson, TJ
Angelides, N
Araújo, HM
Armstrong, JE
Arthurs, M
Bai, X
Balajthy, J
Balashov, S
Bang, J
Bargemann, JW
Bauer, D
Baxter, A
Beltrame, P
Bernard, EP
Bernstein, A
Bhatti, A
Biekert, A
Biesiadzinski, TP
Birch, HJ
Blockinger, GM
Boxer, B
Brew, CAJ
Brás, P
Burdin, S
Busenitz, JK
Buuck, M
Cabrita, R
Carmona-Benitez, MC
Cascella, M
Chan, C
Chott, NI
Cole, A
Converse, MV
Cottle, A
Cox, G
Cutter, JE
Dahl, CE
Viveiros, L de
Dobson, JEY
Druszkiewicz, E
Eriksen, SR
Fan, A
Fayer, S
Fearon, NM
Fiorucci, S
Flaecher, H
Fraser, ED
Fruth, T
Gaitskell, RJ
Genovesi, J
Ghag, C
Gibson, E
Gokhale, S
Grinten, MGD van der
Gwilliam, CB
Hall, CR
Haselschwardt, SJ
Hertel, SA
Horn, M
Huang, DQ
Ignarra, CM
Jahangir, O
James, RS
Ji, W
Johnson, J
Kaboth, AC
Kamaha, AC
Kamdin, K
Kazkaz, K
Khaitan, D
Khazov, A
Khurana, I
Kodroff, D
Korley, L
Korolkova, EV
Kraus, H
Kravitz, S
Kreczko, L
Krikler, B
Kudryavtsev, VA
Leason, EA
Lesko, KT
Levy, C
Li, J
Liao, J
Lin, J
Lindote, A
Linehan, R
Lippincott, WH
Liu, X
Lopes, MI
Asamar, E Lopez
Paredes, B López
Lorenzon, W
Luitz, S

January 2021

Two-phase xenon detectors, such as that at the core of the forthcoming LZ dark matter experiment, us...

Investigation of background electron emission in the LUX detector

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

November 2020

Dual-phase xenon detectors, as currently used in direct detection dark matter experiments, have obse...

Pulse shape discrimination in the LUX dark matter detector

Khaitan, Dev Ashish
Wolfs, Frank L.H.

January 2020

Thesis (Ph. D.)--University of Rochester. Department of Physics and Astronomy, 2019.Abundant evidenc...

Radiogenic and Muon-Induced Backgrounds in the LUX Dark Matter Detector

Szydagis, Matthew M

January 2014

The Large Underground Xenon (LUX) dark matter experiment aims to detect rare low-energy interactions...

Radiogenic and muon-induced backgrounds in the LUX dark matter detector

Akerib, DS
Araújo, HM
Bai, X
Bailey, AJ
Balajthy, J
Bernard, E
Bernstein, A
Bradley, A
Byram, D
Cahn, SB
Carmona-Benitez, MC
Chan, C
Chapman, JJ
Chiller, AA
Chiller, C
Coffey, T
Currie, A
De Viveiros, L
Dobi, A
Dobson, J
Druszkiewicz, E
Edwards, B
Faham, CH
Fiorucci, S
Flores, C
Gaitskell, RJ
Gehman, VM
Ghag, C
Gibson, KR
Gilchriese, MGD
Hall, C
Hertel, SA
Horn, M
Huang, DQ
Ihm, M
Jacobsen, RG
Kazkaz, K
Knoche, R
Larsen, NA
Lee, C
Lindote, A
Lopes, MI
Malling, DC
Mannino, R
McKinsey, DN
Mei, DM
Mock, J
Moongweluwan, M
Morad, J
Murphy, ASJ
Nehrkorn, C
Nelson, H
Neves, F
Ott, RA
Pangilinan, M
Parker, PD
Pease, EK
Pech, K
Phelps, P
Reichhart, L
Shutt, T
Silva, C
Solovov, VN
Sorensen, P
O'Sullivan, K
Sumner, TJ
Szydagis, M
Taylor, D
Tennyson, B
Tiedt, DR
Tripathi, M
Uvarov, S
Verbus, JR
Walsh, N
Webb, R
White, JT
Witherell, MS
Wolfs, FLH
Woods, M
Zhang, C

January 2015

The Large Underground Xenon (LUX) dark matter experiment aims to detect rare low-energy interactions...

Extending light WIMP searches to single scintillation photons in LUX

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

February 2020

We present a novel analysis technique for liquid xenon time projection chambers that allows for a lo...

Extending the physics reach of the LUX and LZ dark matter experiments by lowering the scintillation threshold

Marangou, Nellie

November 2020

Dark matter experiments searching for weakly interacting massive particles (WIMPs), which are hypoth...

Low-mass dark matter search using ionization signals in XENON100

XENON Collaboration
Aprile, E
Aalbers, J
Agostini, F
et al
Barrow, P
Baudis, L
Ferella, A
Franco, D
Galloway, M
Kessler, G
Kish, A
Mayani, D
Pakarha, P
Wulf, J

January 2016

We perform a low-mass dark matter search using an exposure of 30 kg×yr with the XENON100 detector. ...

New constraints and discovery potential of sub-GeV dark matter with xenon detectors

McCabe, C.

August 2017

Existing xenon dark matter (DM) direct detection experiments can probe the DM-nucleon interaction of...

Improving sensitivity to low-mass dark matter in LUX using a novel electrode background mitigation technique

Abstract

Extracted data

Improving sensitivity to low-mass dark matter in LUX using a novel electrode background mitigation technique

Abstract

Extracted data

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