45 research outputs found
Projected sensitivities of the LUX-ZEPLIN experiment to new physics via low-energy electron recoils
- Author
- Akerib DS
- Al Musalhi AK
- Alsum SK
- Amarasinghe CS
- Ames A
- Anderson TJ
- Angelides N
- Araujo HM
- Armstrong JE
- Arthurs M
- Asamar EL
- 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
- Bodnia E
- Boxer B
- Bras P
- Brew CAJ
- Burdin S
- Busenitz JK
- Buuck M
- Cabrita R
- Carmona-Benitez MC
- Cascella M
- Chan C
- Chott N
- Cole A
- Converse M
- Cottle A
- Cox G
- Creaner O
- Cutter JE
- Dahl CE
- de Viveiros L
- 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
- Gwilliam CB
- Hall CR
- Hardy CA
- 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 E
- Kraus H
- Kravitz S
- Kreczko L
- Krikler B
- Kudryavtsev VA
- Leason EA
- Lee J
- Leonard DS
- Lesko KT
- Levy C
- Li J
- Liao J
- Lindote A
- Linehan R
- Lippincott WH
- Liu X
- Lopes M
- Lorenzon W
- Luitz S
- Majewski PA
- Manalaysay A
- Manenti L
- Mannino RL
- Marangou N
- McCarthy ME
- McKinsey DN
- McLaughlin J
- Mendoza JDM
- Miller EH
- Mizrachi E
- Monte A
- Monzani ME
- Morad JA
- Morrison E
- Mount BJ
- Murphy ASJ
- Naim D
- Naylor A
- Nedlik C
- Nelson HN
- Neves F
- Nguyen A
- Nikoleyczik JA
- Nilima A
- Olcina I
- Oliver-Mallory KC
- Pal S
- Palladino KJ
- Palmer J
- Paredes BL
- Parveen N
- Patton S
- Pease EK
- Penning B
- Pereira G
- Piepke A
- Qie Y
- Reichenbacher J
- Rhyne CA
- Richards A
- Riffard Q
- Rischbieter GRC
- Rosero R
- Rossiter P
- Santone D
- Sazzad ABMR
- Schnee RW
- Scovell PR
- Shaw S
- Shutt TA
- Silk JJ
- Silva C
- Smith R
- Solmaz M
- Solovov VN
- Sorensen P
- Soria J
- Stancu I
- Stevens A
- Stifter K
- Suerfu B
- Sumner TJ
- Swanson N
- Szydagis M
- Taylor R
- Taylor WC
- Temples DJ
- Terman PA
- Tiedt DR
- Timalsina M
- To WH
- Tovey DR
- Tripathi M
- Tronstad DR
- Turner W
- Utku U
- Vaitkus A
- van der Grinten MGD
- Wang B
- Wang JJ
- Wang W
- Watson JR
- Webb RC
- White RG
- Whitis TJ
- Williams M
- Wolfs FLH
- Woodward D
- Wright CJ
- Xiang X
- Xu J
- Yeh M
- Zarzhitsky P
- Publication venue
- AMER PHYSICAL SOC
- Publication date
- 23/11/2021
- Field of study
LUX-ZEPLIN is a dark matter detector expected to obtain world-leading sensitivity to weakly-interacting massive particles interacting via nuclear recoils with a
∼
7
-tonne xenon target mass. This paper presents sensitivity projections to several low-energy signals of the complementary electron recoil signal type: 1) an effective neutrino magnetic moment, and 2) an effective neutrino millicharge, both for
p
p
-chain solar neutrinos, 3) an axion flux generated by the Sun, 4) axionlike particles forming the Galactic dark matter, 5) hidden photons, 6) mirror dark matter, and 7) leptophilic dark matter. World-leading sensitivities are expected in each case, a result of the large 5.6 t 1000 d exposure and low expected rate of electron-recoil backgrounds in the
<
100
keV
energy regime. A consistent signal generation, background model and profile-likelihood analysis framework is used throughout
Projected sensitivity of the LUX-ZEPLIN experiment to the two-neutrino and neutrinoless double beta decays of Xe-134
- Author
- Akerib DS
- Al Musalhi AK
- 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
- Bodnia E
- 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
- Creaner O
- Cutter JE
- Dahl CE
- de Viveiros L
- 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
- gnarra MCI
- Gokhale S
- Gwilliam CB
- Hall CR
- Haselschwardt SJ
- Hertel SA
- Horn M
- Huang DQ
- 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
- Lee J
- Leonard DS
- Lesko KT
- Levy C
- Liao J
- Lin J
- Lindote A
- Linehan R
- Lippincott WH
- Liu X
- Lopes MI
- Lorenzon W
- Luitz S
- López Asamar E
- López Paredes B
- Majewski PA
- Manalaysay A
- Manenti L
- Mannino RL
- Marangou N
- McCarthy ME
- McKinsey DN
- McLaughlin J
- Miller EH
- Mizrachi E
- Monte A
- Monzani ME
- Morad JA
- Morales Mendoza JD
- Morrison E
- Mount BJ
- Murphy ASJ
- Naim D
- Naylor A
- Nedlik C
- Nelson HN
- Neves F
- Nikoleyczik JA
- Nilima A
- Olcina I
- Oliver-Mallory KC
- Pal S
- Palladino KJ
- Palmer J
- Parveen N
- Patton S
- Pease EK
- Penning B
- Pereira G
- Piepke A
- Qie Y
- Reichenbacher J
- Rhyne CA
- Richards A
- Riffard Q
- Rischbieter GRC
- Rosero R
- Rossiter P
- Santone D
- Sazzad ABMR
- Schnee RW
- Scovell PR
- Shaw S
- Shutt TA
- Silk JJ
- Silva C
- Smith R
- Solmaz M
- Solovov VN
- Sorensen P
- Soria J
- Stancu I
- Stevens A
- Stifter K
- Suerfu B
- Sumner TJ
- Swanson N
- Szydagis M
- Taylor R
- Taylor WC
- Temples DJ
- Terman PA
- Tiedt DR
- Timalsina M
- To WH
- Tovey DR
- Tripathi M
- Tronstad DR
- Turner W
- Utku U
- Vaitkus A
- van der Grinten MGD
- Wang B
- Wang JJ
- Wang W
- Watson JR
- Webb RC
- White RG
- Whitis TJ
- Williams M
- Wolfs FLH
- Woodward D
- Wright CJ
- Xiang X
- Xu J
- Yeh M
- Zarzhitsky P
- Publication venue
- Publication date
- 01/01/2022
- Field of study
Simulations of Events for the LUX-ZEPLIN (LZ) Dark Matter Experiment
- Author
- Akerib DS
- Akerlof CW
- Alquahtani A
- Alsum SK
- Anderson TJ
- Angelides N
- Araújo HM
- Armstrong JE
- Arthurs M
- Bai X
- Balajthy J
- Balashov S
- Bang J
- Bauer D
- Baxter A
- Bensinger J
- Bernard EP
- Bernstein A
- Bhatti A
- Biekert A
- Biesiadzinski TP
- Birch HJ
- Boast KE
- Boxer B
- Brás P
- Buckley JH
- Bugaev VV
- Burdin S
- Busenitz JK
- Cabrita R
- Carels C
- Carlsmith DL
- Carmona-Benitez MC
- Cascella M
- Chan C
- Chott NI
- Cole A
- Collaboration TLUX-ZEPLIN
- Cottle A
- Cutter JE
- Dahl CE
- Dobson JEY
- Druszkiewicz E
- Edberg TK
- Eriksen SR
- Fan A
- Fayer S
- Fiorucci S
- Flaecher H
- Fraser ED
- Fruth T
- Gaitskell RJ
- Genovesi J
- Ghag C
- Gibson E
- Gilchriese MGD
- Gokhale S
- Grinten MGDVD
- Hall CR
- Harrison A
- Haselschwardt SJ
- Hertel SA
- Hor JY-K
- Horn M
- Huang DQ
- Ignarra CM
- Jahangir O
- Ji W
- Johnson J
- Kaboth AC
- Kamaha AC
- Kamdin K
- Kazkaz K
- Khaitan D
- Khazov A
- Khurana I
- Kocher CD
- Korley L
- Korolkova EV
- Kras J
- Kraus H
- Kravitz S
- Kreczko L
- Krikler B
- Kudryavtsev VA
- Leason EA
- Lee J
- Leonard DS
- Lesko KT
- Levy C
- Li J
- Liao F-T
- Liao J
- Lin J
- Lindote A
- Linehan R
- Lippincott WH
- Liu R
- Liu X
- Loniewski C
- Lopes MI
- Lorenzon W
- Luitz S
- Lyle JM
- Majewski PA
- Manalaysay A
- Manenti L
- Mannino RL
- Marangou N
- Marzioni MF
- McKinsey DN
- McLaughlin J
- Meng Y
- Miller EH
- Mizrachi E
- Monte A
- Monzani ME
- Morad JA
- Morrison E
- Mount BJ
- Murphy ASJ
- Naim D
- Naylor A
- Nedlik C
- Nehrkorn C
- Nelson HN
- Neves F
- Nikoleyczik JA
- Nilima A
- Olcina I
- Oliver-Mallory KC
- Pal S
- Palladino KJ
- Palmer J
- Paredes BL
- Parveen N
- Pease EK
- Penning B
- Pereira G
- Piepke A
- Pushkin K
- Reichenbacher J
- Rhyne CA
- Richards A
- Riffard Q
- Rischbieter GRC
- Rosero R
- Rossiter P
- Rutherford G
- Santone D
- Sazzad ABMR
- Schnee RW
- Schubnell M
- Seymour D
- Shaw S
- Shutt TA
- Silk JJ
- Silva C
- Smith R
- Solmaz M
- Solovov VN
- Sorensen P
- Stancu I
- Stevens A
- Stifter K
- Sumner TJ
- Swanson N
- Szydagis M
- Tan M
- Taylor R
- Taylor WC
- Temples DJ
- Terman PA
- Tiedt DR
- Timalsina M
- Tomás A
- Tripathi M
- Tronstad DR
- Turner W
- Tvrznikova L
- Utku U
- Vacheret A
- Vaitkus A
- Viveiros LD
- Wang JJ
- Wang W
- Watson JR
- Webb RC
- White RG
- Whitis TJ
- Wolfs FLH
- Woodward D
- Xiang X
- Xu J
- Yeh M
- Zarzhitsky P
- Publication venue
- 'Center for Open Science'
- Publication date
- 25/01/2020
- Field of study
The LUX-ZEPLIN dark matter search aims to achieve a sensitivity to the WIMP-nucleon spin-independent cross-section down to (1-2) × 10−12 pb at a WIMP mass of 40 GeV/c2. This paper describes the simulations framework that, along with radioactivity measurements, was used to support this projection, and also to provide mock data for validating reconstruction and analysis software. Of particular note are the event generators, which allow us to model the background radiation, and the detector response physics used in the production of raw signals, which can be converted into digitized waveforms similar to data from the operational detector. Inclusion of the detector response allows us to process simulated data using the same analysis routines as developed to process the experimental data
The LUX-ZEPLIN (LZ) Experiment
- Author
- Akerib DS
- Akerlof CW
- Akimov DY
- Alquahtani A
- Alsum SK
- Anderson TJ
- Angelides N
- Araújo HM
- Arbuckle A
- Armstrong JE
- Arthurs M
- Auyeung H
- Bai X
- Bailey AJ
- Balajthy J
- Balashov S
- Bang J
- Barry MJ
- Barthel J
- Bauer D
- Bauer P
- Baxter A
- Belle J
- Beltrame P
- Bensinger J
- Benson T
- Bernard EP
- Bernstein A
- Bhatti A
- Biekert A
- Biesiadzinski TP
- Birrittella B
- Boast KE
- Bolozdynya AI
- Boulton EM
- Boxer B
- Bramante R
- Branson S
- Breidenbach M
- Brás P
- Buckley JH
- Bugaev VV
- Bunker R
- Burdin S
- Busenitz JK
- Campbell JS
- Carels C
- Carlsmith DL
- Carlson B
- Carmona-Benitez MC
- Cascella M
- Chan C
- Cherwinka JJ
- Chiller AA
- Chiller C
- Chott NI
- Cole A
- Coleman J
- Collaboration TLZ
- Colling D
- Conley RA
- Cottle A
- Coughlen R
- Craddock WW
- Cunha JPD
- Curran D
- Currie A
- Cutter JE
- Dahl CE
- Dardin S
- Dasu S
- Davis J
- Davison TJR
- Decheine N
- Dobi A
- Dobson JEY
- Druszkiewicz E
- Dushkin A
- Edberg TK
- Edwards BN
- Edwards J
- Edwards WR
- Elnimr MM
- Emmet WT
- Eriksen SR
- Faham CH
- Fan A
- Fayer S
- Fiorucci S
- Flaecher H
- Florang IMF
- Ford P
- Francis VB
- Froborg F
- Fruth T
- Gaitskell RJ
- Gantos NJ
- Garcia D
- Geffre A
- Gehman VM
- Gelfand R
- Genovesi J
- Gerhard RM
- Ghag C
- Gibson E
- Gilchriese MGD
- Gokhale S
- Gomber B
- Gonda TG
- Greenall A
- Greenwood S
- Gregerson G
- Grinten MGDVD
- Gwilliam CB
- Hall CR
- Hamilton D
- Hans S
- Hanzel K
- Harrington T
- Harrison A
- Haselschwardt SJ
- Hasselkus C
- Heise J
- Hemer D
- Hertel SA
- Hillbrand S
- Hitchcock O
- Hjemfelt C
- Hoff MD
- Holbrook B
- Holtom E
- Hor JY-K
- Horn M
- Huang DQ
- Hurteau TW
- Ignarra CM
- Irving MN
- Jacobsen RG
- Jahangir O
- Jeffery SN
- Ji W
- Johnson J
- Johnson M
- Johnson P
- Jones WG
- Kaboth AC
- Kamaha A
- Kamdin K
- Kasey V
- Kazkaz K
- Keefner J
- Khaitan D
- Khaleeq M
- Khazov A
- Khromov AV
- Khurana I
- Kim WT
- Kim YD
- Kocher CD
- Konovalov AM
- Korley L
- Korolkova EV
- Koyuncu M
- Kras J
- Kraus H
- Kravitz SW
- Krebs HJ
- Kreczko L
- Krikler B
- Kudryavtsev VA
- Kumpan AV
- Kyre S
- Lambert AR
- Landerud B
- Larsen NA
- Laundrie A
- Leason EA
- Lee C
- Lee HS
- Lee J
- Lenardo BG
- Leonard DS
- Leonard R
- Lesko KT
- Levy C
- Li J
- Liao F-T
- Liao J
- Lin J
- Lindote A
- Linehan R
- Lippincott WH
- Liu R
- Liu X
- Liu Y
- Loniewski C
- Lopes MI
- Lorenzon W
- Lucero D
- Luitz S
- Lyle JM
- Lynch C
- Majewski PA
- Makkinje J
- Malling DC
- Manalaysay A
- Manenti L
- Mannino RL
- Marangou N
- Markley DJ
- MarrLaundrie P
- Martin TJ
- Marzioni MF
- Maupin C
- McConnell CT
- McKinsey DN
- McLaughlin J
- Mei D-M
- Meng Y
- Migneault J
- Miller EH
- Minaker ZJ
- Mizrachi E
- Mock J
- Molash D
- Monte A
- Monzani ME
- Morad JA
- Morrison E
- Mount BJ
- Murphy ASJ
- Naim D
- Naylor A
- Nedlik C
- Nehrkorn C
- Nelson HN
- Nesbit J
- Neves F
- Nikkel JA
- Nikoleyczik JA
- Nilima A
- O'Dell J
- O'Neill FG
- O'Sullivan K
- Oh H
- Olcina I
- Olevitch MA
- Oliver-Mallory KC
- Oxborough L
- Pagac A
- Pagenkopf D
- Pal S
- Palladino KJ
- Palmaccio VM
- Palmer J
- Pangilinan M
- Paredes BL
- Patton SJ
- Pease EK
- Penning BP
- Pereira C
- Pereira G
- Peterson IB
- Piepke A
- Pierson S
- Powell S
- Preece RM
- Pushkin K
- Qie Y
- Racine M
- Ratcliff BN
- Reichenbacher J
- Reichhart L
- Rhyne CA
- Richards A
- Riffard Q
- Rischbieter GRC
- Rodrigues JP
- Rose HJ
- Rosero R
- Rossiter P
- Rucinski R
- Rutherford G
- Rynders D
- Saba JS
- Sabarots L
- Santone D
- Sarychev M
- Sazzad ABMR
- Schnee RW
- Schubnell M
- Scovell PR
- Severson M
- Seymour D
- Shaw S
- Shutt GW
- Shutt TA
- Silk JJ
- Silva C
- Skarpaas K
- Skulski W
- Smith AR
- Smith RE
- Smith RJ
- So J
- Solmaz M
- Solovov VN
- Sorensen P
- Sosnovtsev VV
- Stancu I
- Stark MR
- Stephenson S
- Stern N
- Stevens A
- Stiegler TM
- Stifter K
- Studley R
- Sumner TJ
- Sundarnath K
- Sutcliffe P
- Swanson N
- Szydagis M
- Tan M
- Taylor DJ
- Taylor R
- Taylor WC
- Temples D
- Tennyson BP
- Terman PA
- Thomas KJ
- Thomson JA
- Tiedt DR
- Timalsina M
- To WH
- Tomás A
- Tope TE
- Tripathi M
- Tronstad DR
- Tull CE
- Turner W
- Tvrznikova L
- Utes M
- Utku U
- Uvarov S
- Va'vra J
- Vacheret A
- Vaitkus A
- Verbus JR
- Vietanen T
- Viveiros LD
- Voirin E
- Vuosalo CO
- Walcott S
- Waldron WL
- Walker K
- Wang JJ
- Wang L
- Wang R
- Wang Y
- Watson JR
- Weatherly S
- Webb RC
- Wei W-Z
- While M
- White DT
- White JT
- White RG
- Whitis TJ
- Wilson K
- Wisniewski WJ
- Witherell MS
- Wolfs FLH
- Wolfs JD
- Woodward D
- Worm SD
- Xiang X
- Xiao Q
- Xu J
- Yeh M
- Yin J
- Young I
- Zhang C
- Publication venue
- Publication date
- 11/02/2020
- Field of study
We describe the design and assembly of the LUX-ZEPLIN experiment, a direct detection search for cosmic WIMP dark matter particles. The centerpiece of the experiment is a large liquid xenon time projection chamber sensitive to low energy nuclear recoils. Rejection of backgrounds is enhanced by a Xe skin veto detector and by a liquid scintillator Outer Detector loaded with gadolinium for efficient neutron capture and tagging. LZ is located in the Davis Cavern at the 4850' level of the Sanford Underground Research Facility in Lead, South Dakota, USA. We describe the major subsystems of the experiment and its key design features and requirements
A922 Sequential measurement of 1 hour creatinine clearance (1-CRCL) in critically ill patients at risk of acute kidney injury (AKI)
- Author
- Abbott TE
- Abdallah RI
- Abdel-Aal IR
- Abdelmonem SA
- Abdo WF
- Abellan AN
- Abellán AN
- Abellán AN
- Abellán AN
- Abrams ST
- Ackerley C
- Acuña M
- Adda M
- Adhikari NK
- Adriano G
- Adrie C
- Affatato R
- Affatato R
- Afonso-Rivero D
- Agarossi A
- Agarwal LK
- Ageeva T
- Agrawal R
- Aguayo-DeHoyos E
- Aguilar AL
- Aguilar-Alonso E
- Aguilar-Alonso E
- Aguilar-Alonso E
- Aguirregabyria M
- Ahmadnia E
- Ahn C
- Ahn JY
- Ahn JY
- Ahn MY
- Ahn MY
- Aitken LM
- Akalaev R
- Akbarzadeh A
- Akcan-Arikan A
- Akhlagh SH
- Akhtar N
- AKI Research Group
- Akiduki N
- Akin S
- Akizuki N
- Akkoc T
- Ala-Kokko T
- Alanio A
- Albaiceta GM
- Albaladejo P
- Alberto F
- Albuisson E
- Alcala MA
- Alcázar L
- Aldabo-Pallas T
- Aldana NN
- Aldecoa C
- Alegría L
- Alejandro R
- Alejo GC
- Alejos RM
- Alexandrova E
- Algarte R
- Algarte R
- Algieri I
- Algora-Weber A
- Alhamdi Y
- Aliaga FA
- Aliberti S
- Alkan A
- Almudena PM
- Almudevar PM
- Almudevar PM
- Almudévar PM
- Altıntas ND
- Alvarez J
- Alves SC
- Alzola LM
- Amargianitakis V
- Amaro R
- Amato MB
- Ambler M
- Amerongen MP
- Amininejad T
- Amor LL
- Amorim V
- Anand RK
- Andersen LW
- Andersson S
- Andoh K
- Andrade AH
- Andrade AH
- Andrade AH
- Andrade G
- Andreis DT
- Andreis DT
- Annane D
- Antonelli M
- Antoniadou A
- Antonio C
- Antonucci E
- Antón DG
- Anzueto A
- Appiani F
- Aquevedo A
- Aragon C
- Araujo NJ
- Araujo VF
- ARIAM registry of adult cardiac surgery
- ARIAM-ANDALUCIA
- Arias CC
- Arias N
- Arias-Verdu MD
- Arias-Verdu MD
- Arias-Verdu MD
- Armaganidis A
- Arora MK
- Arora N
- Arrigo M
- Arslantas MK
- Artiguenave M
- Aslanian P
- Aspide R
- Asyralyyeva G
- Ataman S
- Ataman S
- Atchade E
- Atchade E
- Atchasiri S
- Athapattu P
- Atkins G
- Aublanc M
- Aublanc M
- Augustin P
- Augustin P
- Auquier P
- Avilés-Jurado FX
- Avramidis V
- Ayala LY
- Aydin M
- Azevedo JC
- Azevedo JR
- Aznar GP
- Babalis D
- Babini G
- Bachli EB
- Bader A
- Bader A
- Baena J
- Baidya DK
- Baikova VN
- Bakker J
- Balcázar LC
- Balcázar LC
- Baldassarri R
- Baldwin CE
- Balik M
- Ball I
- Ballin A
- Balsera B
- Banderas-Bravo ME
- Banderas-Bravo ME
- Bandert A
- Bangstad IL
- Baptista N
- Baquero JD
- Barbadillo S
- Barberet G
- Barberet G
- Barberet G
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- Chernyshuk S
- Chevret S
- Chhor V
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- Chiou KR
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- Chiumello D
- Chiurazzi C
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- Cho Y
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- Combes A
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- Dalhuisen A
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- Das Neves A
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- De Backer A
- De Brito-Ashurst I
- De Cassai A
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- De Gasperi A
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- de la Fuente MV
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- Engelberts D
- ENVIN-HELICS Study Group
- Erb J
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- FINNRESUSCI Study Group
- Fischer G
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- GETGAG Working Group
- GETGAG/SEMICYUC
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- González-Jiménez AI
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- Ignacio ML
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- Imanaka H
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- IPREA Study Group
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- Japan Septic Disseminated Intravascular Coagulation (JSEPTIC DIC) study group
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- Jayasinghe S
- Jean-Baptiste S
- Jean-Baptiste S
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- Jensen JU
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- Jovaisa T
- JSEPTIC (Japanese Society of Education for Physicians and Trainees in Intensive Care) Clinical Trial Group
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- Juanas CA
- Judickas S
- Juez A
- Juliarena A
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- Junior JM
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- Kaminsky GE
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- Kim JM
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- Ko SB
- Kobayashi A
- Koco E
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- Kolnikova I
- Komuro T
- Kondili E
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- Kosuk ME
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- Kouatchet A
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- Krishna B
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- Kulkarni AP
- Kumari BK
- Kumbamu A
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- Kurmukov IA
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- Kwon HM
- Kwon WY
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- Kyle UG
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- Labra C
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- Lafuente E
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- Lichtenstein D
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- Limuti R
- Lin KC
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- Lin KC
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- Lin KL
- Lin PH
- Lin SC
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- Lischinsky A
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- Lobo-Civico A
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- López L
- López MA
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- MacKay A
- MacKay A
- Mackey G
- Mackey G
- MacPhee I
- Macrì M
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- Maekawa K
- Maekawa K
- Maekawa K
- Maekawa K
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- Maghsoudi B
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- Maistry N
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- Martín-Loeches I
- Martínez F
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- Martínez MV
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- Martínez-Carmona JF
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- Mejías CR
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- Melnyk L
- Melo N
- Mendes A
- Mendez MC
- Mendonca AV
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- Menendez R
- Mengelle C
- Mercat A
- Mercat A
- Mercat A
- Mergulhão PJ
- Merino-Vega D
- Messenger D
- Mezidi M
- Mezidi M
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- Midwinter MJ
- Mignot T
- Miguelena PR
- Mihara Y
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- Okamoto H
- Okayama Research Investigation Organizing Network (ORION)investigators
- Olaechea P
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- Olivares F
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- Orden VA
- Ori C
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- Philips BJ
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- Pickkers P
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- Picoita F
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- Pierce C
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- Pozzi M
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- Pratikaki M
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- Radu V
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- Riera SQ
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- Rood PJ
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- Rossini P
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- Rubiera M
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- Sanchez-Orézzoli MG
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- Su L
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- Suchomel P
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- Tabatabaei HR
- Tabei SH
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- Taccone FS
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- Tapponnier R
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- Toh CH
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- WIND study group
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- Yasuda H
- Yatabe T
- Yebenes JC
- Yeh YC
- Yemets H
- Yergaliyeva A
- Yılmaz G
- Yilmazer F
- Yodice P
- Yokoyama M
- Yonis H
- Yonis H
- Yonis H
- Yoon SZ
- Yoruk F
- Yoshida K
- Yoshida T
- Yoshida T
- Yoshida T
- Yoshida T
- Yoshihiro S
- Yoshitake E
- You KM
- Youn AM
- Young A
- Yu KM
- Yumoto T
- Yuzawa J
- Yuzawa J
- Zabaletta WJ
- Zabini D
- Zahorec M
- Zaien I
- Zakynthinos S
- Zanello M
- Zani D
- Zarantonello F
- Zayas B
- Zepeda EM
- Zeroual N
- Zerva L
- Zhang J
- Zhou JC
- Zhou JC
- Zhou JX
- Zhovnir V
- Zibandah N
- Zijlstra F
- Zimmerman J
- Zogheib E
- Zogheib E
- Zogheib E
- Zullino V
- Zwaag J
- Zýková I
- Álvarez JT
- Álvarez-Lerma F
- Publication venue
- 'Springer Science and Business Media LLC'
- Publication date
- 01/01/2016
- Field of study
Meeting abstrac
Identification of Radiopure Titanium for the LZ Dark Matter Experiment and Future Rare Event Searches
- Author
- Akerib DS
- Akerlof CW
- Akimov DY
- Alsum SK
- Araújo HM
- Arnquist IJ
- Arthurs M
- Bai X
- Bailey AJ
- Balajthy J
- Balashov S
- Barry MJ
- Belle J
- Beltrame P
- Benson T
- Bernard EP
- Bernstein A
- Biesiadzinski TP
- Boast KE
- Bolozdynya A
- Boxer B
- Bramante R
- Brás P
- Buckley JH
- Bugaev VV
- Bunker R
- Burdin S
- Busenitz JK
- Carels C
- Carlsmith DL
- Carlson B
- Carmona-Benitez MC
- Chan C
- Cherwinka JJ
- Chiller AA
- Chiller C
- Cottle A
- Coughlen R
- Craddock WW
- Currie A
- Dahl CE
- Davison TJR
- Dobi A
- Dobson JEY
- Druszkiewicz E
- Edberg TK
- Edwards WR
- Emmet WT
- Faham CH
- Fiorucci S
- Fruth T
- Gaitskell RJ
- Gantos NJ
- Gehman VM
- Gerhard RM
- Ghag C
- Gilchriese MGD
- Gomber B
- Grinten MGDVD
- Hall CR
- Hans S
- Hanzel K
- Haselschwardt SJ
- Hertel SA
- Hillbrand S
- Hjemfelt C
- Hoff MD
- Holbrook B
- Holtom E
- Hoppe EW
- Hor JY-K
- Horn M
- Huang DQ
- Hurteau TW
- Ignarra CM
- Jacobsen RG
- Ji W
- Kaboth A
- Kamdin K
- Kazkaz K
- Khaitan D
- Khazov A
- Khromov AV
- Konovalov AM
- Korolkova EV
- Koyuncu M
- Kraus H
- Krebs HJ
- Kudryavtsev VA
- Kumpan AV
- Kyre S
- Lee C
- Lee HS
- Lee J
- Leonard DS
- Leonard R
- Lesko KT
- Levy C
- Liao F-T
- Lin J
- Lindote A
- Linehan RE
- Lippincott WH
- Liu X
- Lopes MI
- Lorenzon W
- Luitz S
- Majewski P
- Manalaysay A
- Manenti L
- Mannino RL
- Markley DJ
- Martin TJ
- Marzioni MF
- McConnell CT
- McKinsey DN
- Mei D-M
- Meng Y
- Miller EH
- Mizrachi E
- Mock J
- Monzani ME
- Morad JA
- Mount BJ
- Murphy ASJ
- Nehrkorn C
- Nelson HN
- Neves F
- Nikkel JA
- O'Dell J
- O'Sullivan K
- Olcina I
- Olevitch MA
- Oliver-Mallory KC
- Palladino KJ
- Paredes BL
- Pease EK
- Piepke A
- Powell S
- Preece RM
- Pushkin K
- Ratcliff BN
- Reichenbacher J
- Reichhart L
- Rhyne CA
- Richards A
- Rodrigues JP
- Rose HJ
- Rosero R
- Rossiter P
- Saba JS
- Sarychev M
- Schnee RW
- Schubnell M
- Scovell PR
- Shaw S
- Shutt TA
- Silva C
- Skarpaas K
- Skulski W
- Solmaz M
- Solovov VN
- Sorensen P
- Sosnovtsev VV
- Stancu I
- Stark MR
- Stephenson S
- Stiegler TM
- Stifter K
- Sumner TJ
- Szydagis M
- Taylor DJ
- Taylor WC
- Temples D
- Terman PA
- Thomas KJ
- Thomson JA
- Tiedt DR
- Timalsina M
- To WH
- Tomás A
- Tope TE
- Tripathi M
- Tvrznikova L
- Va'vra J
- Vacheret A
- Verbus JR
- Vuosalo CO
- Waldron WL
- Wang R
- Watson R
- Webb RC
- Wei W-Z
- While M
- White DT
- Whitis TJ
- Wisniewski WJ
- Witherell MS
- Wolfs FLH
- Woodward D
- Worm S
- Xu J
- Yeh M
- Yin J
- Zhang C
- Publication venue
- 'Elsevier BV'
- Publication date
- Field of study
The LUX-ZEPLIN (LZ) experiment will search for dark matter particle interactions with a detector containing a total of 10 tonnes of liquid xenon within a double-vessel cryostat. The large mass and proximity of the cryostat to the active detector volume demand the use of material with extremely low intrinsic radioactivity. We report on the radioassay campaign conducted to identify suitable metals, the determination of factors limiting radiopure production, and the selection of titanium for construction of the LZ cryostat and other detector components. This titanium has been measured with activities of 238Ue~<1.6~mBq/kg, 238Ul~<0.09~mBq/kg, 232The~=0.28±0.03~mBq/kg, 232Thl~=0.25±0.02~mBq/kg, 40K~<0.54~mBq/kg, and 60Co~<0.02~mBq/kg (68\% CL). Such low intrinsic activities, which are some of the lowest ever reported for titanium, enable its use for future dark matter and other rare event searches. Monte Carlo simulations have been performed to assess the expected background contribution from the LZ cryostat with this radioactivity. In 1,000 days of WIMP search exposure of a 5.6-tonne fiducial mass, the cryostat will contribute only a mean background of 0.160±0.001(stat)±0.030(sys) counts
Projected sensitivity of the LUX-ZEPLIN experiment to the 0νββ decay of 136Xe
- Author
- Akerib DS
- Akerlof CW
- Alqahtani A
- Alsum SK
- Anderson TJ
- Angelides N
- Araújo HM
- Armstrong JE
- Arthurs M
- Bai X
- Balajthy J
- Balashov S
- Bang J
- Baxter A
- Benitez MCC
- Bensinger J
- Bernard EP
- Bernstein A
- Bhatti A
- Biekert A
- Biesiadzinski TP
- Birch HJ
- Boast KE
- Boxer B
- Brás P
- Buckley JH
- Bugaev VV
- Burdin S
- Busenitz JK
- Cabrita R
- Carels C
- Carlsmith DL
- Cascella M
- Chan C
- Chott NI
- Cole A
- Cottle A
- Cutter JE
- Dahl CE
- Dobson JEY
- Druszkiewicz E
- Edberg TK
- Eriksen SR
- Fan A
- Fiorucci S
- Flaecher H
- Fraser ED
- Fruth T
- Gaitskell RJ
- Genovesi J
- Ghag C
- Gibson E
- Gilchriese MGD
- Gokhale S
- Grinten MGDVD
- Hall CR
- Harrison A
- Haselschwardt SJ
- Hertel SA
- Hor JYK
- Horn M
- Huang DQ
- Ignarra CM
- Jahangir O
- Ji W
- Johnson J
- Kaboth AC
- Kamaha AC
- Kamdin K
- Kazkaz K
- Khaitan D
- Khazov A
- Khurana I
- Kocher CD
- Korley L
- Korolkova EV
- Kras J
- Kraus H
- Kravitz S
- Kreczko L
- Krikler B
- Kudryavtsev VA
- Leason EA
- Lee J
- Leonard DS
- Lesko KT
- Levy C
- Li J
- Liao FT
- Liao J
- Lin J
- Lindote A
- Linehan R
- Lippincott WH
- Liu R
- Liu X
- Loniewski C
- Lopes MI
- Lorenzon W
- Luitz S
- Lyle JM
- Majewski PA
- Manalaysay A
- Manenti L
- Mannino RL
- Marangou N
- Marzioni MF
- McKinsey DN
- McLaughlin J
- Meng Y
- Miller EH
- Mizrachi E
- Monte A
- Monzani ME
- Morad JA
- Morrison E
- Mount BJ
- Murphy ASJ
- Naim D
- Naylor A
- Nedlik C
- Nehrkorn C
- Nelson HN
- Neves F
- Nikoleyczik JA
- Nilima A
- O'Sullivan K
- Olcina I
- Oliver-Mallory KC
- Pal S
- Palladino KJ
- Palmer J
- Paredes BL
- Parveen N
- Pease EK
- Penning B
- Pereira G
- Pushkin K
- Reichenbacher J
- Rhyne CA
- Riffard Q
- Rischbieter GRC
- Rosero R
- Rossiter P
- Rutherford G
- Santone D
- Sazzad ABMR
- Schnee RW
- Schubnell M
- Seymour D
- Shaw S
- Shutt TA
- Silk JJ
- Silva C
- Smith R
- Solmaz M
- Solovov VN
- Sorensen P
- Stancu I
- Stevens A
- Stifter K
- Sumner TJ
- Swanson N
- Szydagis M
- Tan M
- Taylor R
- Taylor WC
- Temples DJ
- Terman PA
- Tiedt DR
- Timalsina M
- Tomás A
- Tripathi M
- Tronstad DR
- Turner W
- Tvrznikova L
- Utku U
- Vacheret A
- Vaitkus A
- Viveiros LD
- Wang JJ
- Wang W
- Watson JR
- Webb RC
- White RG
- Whitis TJ
- Wolfs FLH
- Woodward D
- Xiang X
- Xu J
- Yeh M
- Zarzhitsky P
- Publication venue
- Publication date
- Field of study
The LUX-ZEPLIN (LZ) experiment will enable a neutrinoless double beta decay search in parallel to the main science goal of discovering dark matter particle interactions. We report the expected LZ sensitivity to ^136Xe neutrinoless double beta decay, taking advantage of the significant (>600 kg) ^136Xe mass contained within the active volume of LZ without isotopic enrichment. After 1000 live-days, the median exclusion sensitivity to the half-life of ^136Xe is projected to be 1.06×10^26 years (90% confidence level), similar to existing constraints. We also report the expected sensitivity of a possible subsequent dedicated exposure using 90% enrichment with ^136Xe at 1.06×10^27 years
LUX-ZEPLIN (LZ) Technical Design Report
- Author
- Akerib DS
- Akerlof CW
- Akimov DY
- Alsum SK
- Araújo HM
- Arthurs M
- Auyeung H
- Bai X
- Bailey AJ
- Balajthy J
- Balashov S
- Barry MJ
- Bauer D
- Bauer P
- Belle J
- Beltrame P
- Benson T
- Bernard EP
- Bernstein A
- Biesiadzinski TP
- Boast KE
- Bolozdynya AI
- Boulton EM
- Boxer B
- Bramante R
- Breidenbach M
- Brás P
- Buckley JH
- Bugaev VV
- Bunker R
- Burdin S
- Busenitz JK
- Carels C
- Carlsmith DL
- Carlson B
- Carmona-Benitez MC
- Cascella M
- Chan C
- Cherwinka JJ
- Chiller AA
- Chiller C
- Cole A
- Colling D
- Conley R
- Cottle A
- Coughlen R
- Craddock WW
- Currie A
- Cutter JE
- Dahl CE
- Dasu S
- Davison TJR
- Dobi A
- Dobson JEY
- Druszkiewicz E
- Edberg TK
- Edwards WR
- El-Jurf S
- Elnimr M
- Emmet WT
- Faham CH
- Fan A
- Fayer S
- Fiorucci S
- Ford P
- Francis V
- Froborg F
- Fruth T
- Gaitskell RJ
- Gantos NJ
- Gehman VM
- Gerhard RM
- Ghag C
- Gilchriese MGD
- Gomber B
- Greenall A
- Greenwood S
- Gregerson G
- Grinten MGDVD
- Hall CR
- Hans S
- Hanzel K
- Haselschwardt SJ
- Hau A
- Hemer D
- Hertel S
- Hillbrand S
- Hjemfelt C
- Hoff MD
- Holbrook B
- Holtom E
- Hor JY-K
- Horn M
- Huang DQ
- Hurteau TW
- Ignarra CM
- Jacobsen RG
- Ji W
- Johnson M
- Jones WG
- Kaboth A
- Kamdin K
- Kasey V
- Kazkaz K
- Keefner J
- Khaitan D
- Khaleeq M
- Khazov A
- Khromov AV
- Kim YD
- Konovalov AM
- Korolkova EV
- Koyuncu M
- Kraus H
- Krebs HJ
- Kreczko L
- Krikler B
- Kudryavtsev VA
- Kumpan AV
- Kyre S
- Larsen NA
- Lee C
- Lee HS
- Lee J
- Lenardo BG
- Leonard DS
- Leonard R
- Lesko KT
- Levy C
- Li J
- Liao F-T
- Lin J
- Lindote A
- Linehan R
- Lippincott WH
- Liu X
- Lopes MI
- Lorenzon W
- Luitz S
- Majewski P
- Makkinje J
- Malling DC
- Manalaysay AG
- Manenti L
- Mannino RL
- Markley DJ
- Martin TJ
- Marzioni MF
- Maupin C
- McConnell CT
- McKinsey DN
- Mei D-M
- Meng Y
- Miller EH
- Mizrachi E
- Mock J
- Monzani ME
- Morad JA
- Morrison E
- Mount BJ
- Murphy ASJ
- Nehrkorn C
- Nelson HN
- Neves F
- Nikkel JA
- Nilima A
- O'Dell J
- O'Neill FG
- O'Sullivan K
- Olcina I
- Olevitch MA
- Oliver-Mallory KC
- Pagac A
- Palladino KJ
- Pangilinan M
- Paredes BL
- Patton SJ
- Pease EK
- Penning B
- Piepke A
- Pierson S
- Powell S
- Preece RM
- Pushkin K
- Racine M
- Ratcliff BN
- Reichenbacher J
- Reichhart L
- Rhyne CA
- Richards A
- Rodrigues JP
- Rose HJ
- Rosero R
- Rossiter P
- Saba JS
- Sarychev M
- Schnee RW
- Schubnell M
- Scovell PR
- Shaw S
- Shutt GW
- Shutt TA
- Silk JS
- Silva C
- Skarpaas K
- Skulski W
- Solmaz M
- Solovov VN
- Sorensen P
- Sosnovtsev VV
- Stancu I
- Stark MR
- Stephenson S
- Stiegler TM
- Stifter K
- Sumner TJ
- Sundarnath K
- Sutcliffe P
- Szydagis M
- Taylor DJ
- Taylor WC
- Temples D
- Tennyson BP
- Terman PA
- Thomas KJ
- Thomson JA
- Tiedt DR
- Timalsina M
- To WH
- Tomás A
- Tope TE
- Tripathi M
- Tull CE
- Tvrznikova L
- Utes M
- Utku U
- Uvarov S
- Va'vra J
- Vacheret A
- Verbus JR
- Viveiros LD
- Vuosalo CO
- Waldron WL
- Wang L
- Wang R
- Watson R
- Webb RC
- Wei W-Z
- While M
- White DT
- Whitis TJ
- Wisniewski WJ
- Witherell MS
- Wolfs FLH
- Woodward D
- Worm SD
- Xiao Q
- Xu J
- Yeh M
- Yin J
- Young I
- Zhang C
- Publication venue
- Publication date
- Field of study
In this Technical Design Report (TDR) we describe the LZ detector to be built at the Sanford Underground Research Facility (SURF). The LZ dark matter experiment is designed to achieve sensitivity to a WIMP-nucleon spin-independent cross section of three times ten to the negative forty-eighth square centimeters
Projected sensitivity of the LUX-ZEPLIN experiment to the 0 ν β β decay of 136 Xe
- Author
- Akerib DS
- Akerlof CW
- Alqahtani A
- Alsum SK
- Anderson TJ
- Angelides N
- Araujo HM
- Armstrong JE
- Arthurs M
- Bai X
- Balajthy J
- Balashov S
- Bang J
- Baxter A
- Bensinger J
- Bernard EP
- Bernstein A
- Bhatti A
- Biekert A
- Biesiadzinski TP
- Birch HJ
- Boast KE
- Boxer B
- Bras P
- Buckley JH
- Bugaev VV
- Burdin S
- Busenitz JK
- Cabrita R
- Carels C
- Carlsmith DL
- Carmona-Benitez MC
- Cascella M
- Chan C
- Chott NI
- Cole A
- Collaboration LUX-ZEPLINLZ
- Cottle A
- Cutter JE
- Dahl CE
- de Viveiros L
- Dobson JEY
- Druszkiewicz E
- Edberg TK
- Eriksen SR
- Fan A
- Fiorucci S
- Flaecher H
- Fraser ED
- Fruth T
- Gaitskell RJ
- Genovesi J
- Ghag C
- Gibson E
- Gilchriese MGD
- Gokhale S
- Hall CR
- Harrison A
- Haselschwardt SJ
- Hertel SA
- Hor JY-K
- Horn M
- Huang DQ
- Ignarra CM
- Jahangir O
- Ji W
- Johnson J
- Kaboth AC
- Kamaha AC
- Kamdin K
- Kazkaz K
- Khaitan D
- Khazov A
- Khurana I
- Kocher CD
- Korley L
- Korolkova EV
- Kras J
- Kraus H
- Kravitz S
- Kreczko L
- Krikler B
- Kudryavtsev VA
- Leason EA
- Lee J
- Leonard DS
- Lesko KT
- Levy C
- Li J
- Liao F-T
- Liao J
- Lin J
- Lindote A
- Linehan R
- Lippincott WH
- Liu R
- Liu X
- Loniewski C
- Lopes MI
- Lorenzon W
- Luitz S
- Lyle JM
- Majewski PA
- Manalaysay A
- Manenti L
- Mannino RL
- Marangou N
- Marzioni MF
- McKinsey DN
- McLaughlin J
- Meng Y
- Miller EH
- Mizrachi E
- Monte A
- Monzani ME
- Morad JA
- Morrison E
- Mount BJ
- Murphy A St J
- Naim D
- Naylor A
- Nedlik C
- Nehrkorn C
- Nelson HN
- Neves F
- Nikoleyczik JA
- Nilima A
- O'Sullivan K
- Olcina I
- Oliver-Mallory KC
- Pal S
- Palladino KJ
- Palmer J
- Paredes B Lopez
- Parveen N
- Pease EK
- Penning B
- Pereira G
- Pushkin K
- Reichenbacher J
- Rhyne CA
- Riffard Q
- Rischbieter GRC
- Rosero R
- Rossiter P
- Rutherford G
- Santone D
- Sazzad ABMR
- Schnee RW
- Schubnell M
- Seymour D
- Shaw S
- Shutt TA
- Silk JJ
- Silva C
- Smith R
- Solmaz M
- Solovov VN
- Sorensen P
- Stancu I
- Stevens A
- Stifter K
- Sumner TJ
- Swanson N
- Szydagis M
- Tan M
- Taylor R
- Taylor WC
- Temples DJ
- Terman PA
- Tiedt DR
- Timalsina M
- Tomas A
- Tripathi M
- Tronstad DR
- Turner W
- Tvrznikova L
- Utku U
- Vacheret A
- Vaitkus A
- van der Grinten MGD
- Wang JJ
- Wang W
- Watson JR
- Webb RC
- White RG
- Whitis TJ
- Wolfs FLH
- Woodward D
- Xiang X
- Xu J
- Yeh M
- Zarzhitsky P
- Publication venue
- 'American Physical Society (APS)'
- Publication date
- 01/07/2020
- Field of study
The LUX-ZEPLIN (LZ) experiment will enable a neutrinoless double β decay search in parallel to the main science goal of discovering dark matter particle interactions. We report the expected LZ sensitivity to 136 Xe neutrinoless double β decay, taking advantage of the significant ( > 600 kg) 136 Xe mass contained within the active volume of LZ without isotopic enrichment. After 1000 live-days, the median exclusion sensitivity to the half-life of 136 Xe is projected to be 1.06 × 10 26 years (90% confidence level), similar to existing constraints. We also report the expected sensitivity of a possible subsequent dedicated exposure using 90% enrichment with 136 Xe at 1.06 × 10 27 years
The LUX-ZEPLIN (LZ) radioactivity and cleanliness control programs
- Author
- Akerib DS
- Akerlof CW
- Akimov DY
- Alquahtani A
- Alsum SK
- Anderson TJ
- Angelides N
- Araújo HM
- Arbuckle A
- Armstrong JE
- Arthurs M
- Auyeung H
- Aviles S
- Bai X
- Bailey AJ
- Balajthy J
- Balashov S
- Bang J
- Barry MJ
- Bauer D
- Bauer P
- Baxter A
- Belle J
- Beltrame P
- Bensinger J
- Benson T
- Bernard EP
- Bernstein A
- Bhatti A
- Biekert A
- Biesiadzinski TP
- Birch HJ
- Birrittella B
- Boast KE
- Bolozdynya AI
- Boulton EM
- Boxer B
- Bramante R
- Branson S
- Breidenbach M
- Brew CAJ
- Brás P
- Buckley JH
- Bugaev VV
- Bunker R
- Burdin S
- Busenitz JK
- Cabrita R
- Campbell JS
- Carels C
- Carlsmith DL
- Carlson B
- Carmona-Benitez MC
- Cascella M
- Chan C
- Cherwinka JJ
- Chiller AA
- Chiller C
- Chott NI
- Cole A
- Coleman J
- Colling D
- Conley RA
- Cottle A
- Coughlen R
- Cox G
- Craddock WW
- Curran D
- Currie A
- Cutter JE
- da Cunha JP
- Dahl CE
- Dardin S
- Dasu S
- Davis J
- Davison TJR
- de Viveiros L
- Decheine N
- Dobi A
- Dobson JEY
- Druszkiewicz E
- Dushkin A
- Edberg TK
- Edwards BN
- Edwards J
- Edwards WR
- Elnimr MM
- Emmet WT
- Eriksen SR
- Faham CH
- Fan A
- Fayer S
- Fiorucci S
- Flaecher H
- Florang IMF
- Ford P
- Francis VB
- Fraser ED
- Froborg F
- Fruth T
- Gaitskell RJ
- Gantos NJ
- Garcia D
- Gehman VM
- Gelfand R
- Genovesi J
- Gerhard RM
- Ghag C
- Gibson E
- Gilchriese MGD
- Gokhale S
- Gomber B
- Gonda TG
- Greenall A
- Greenwood S
- Gregerson G
- Gwilliam CB
- Hall CR
- Hamilton D
- Hans S
- Hanzel K
- Harrington T
- Harrison A
- Harrison J
- Haselschwardt SJ
- Hasselkus C
- Heise J
- Hemer D
- Hertel SA
- Hillbrand S
- Hitchcock O
- Hjemfelt C
- Hoff MD
- Holbrook B
- Holtom E
- Hor JY-K
- Horn M
- Huang DQ
- Hurteau TW
- Ignarra CM
- Irving MN
- Jacobsen RG
- Jahangir O
- Jeffery SN
- Ji W
- Johnson J
- Johnson M
- Johnson P
- Jones WG
- Kaboth AC
- Kamaha A
- Kamdin K
- Kasey V
- Kazkaz K
- Keefner J
- Khaitan D
- Khaleeq M
- Khazov A
- Khromov AV
- Khurana I
- Kim WT
- Kim YD
- Kocher CD
- Kodroff D
- Konovalov AM
- Korley L
- Korolkova EV
- Koyuncu M
- Kras J
- Kraus H
- Kravitz SW
- Krebs HJ
- Kreczko L
- Krikler B
- Kudryavtsev VA
- Kumpan AV
- Kyre S
- Lambert AR
- Landerud B
- Larsen NA
- Laundrie A
- Leason EA
- Lee C
- Lee HS
- Lee J
- Lenardo BG
- Leonard DS
- Leonard R
- Lesko KT
- Levy C
- Li J
- Liao F-T
- Liao J
- Lin J
- Lindote A
- Linehan R
- Lippincott WH
- Liu R
- Liu X
- Liu Y
- Loniewski C
- Lopes MI
- Lopez-Asamar E
- Lorenzon W
- Lucero D
- Luitz S
- Lyle JM
- Lynch C
- Majewski PA
- Makkinje J
- Malling DC
- Manalaysay A
- Manenti L
- Mannino RL
- Marangou N
- Markley DJ
- MarrLaundrie P
- Martin TJ
- Marzioni MF
- Maupin C
- McConnell CT
- McKinsey DN
- McLaughlin J
- Mei D-M
- Meng Y
- Migneault J
- Miller EH
- Minaker ZJ
- Mizrachi E
- Mock J
- Molash D
- Monte A
- Monzani ME
- Morad JA
- Morrison E
- Mount BJ
- Murphy ASJ
- Naim D
- Naylor A
- Nedlik C
- Nehrkorn C
- Nelson HN
- Nesbit J
- Neves F
- Nikkel JA
- Nikoleyczik JA
- Nilima A
- Oh H
- Olcina I
- Olevitch MA
- Oliver-Mallory KC
- Oxborough L
- O’Dell J
- O’Neill FG
- O’Sullivan K
- Pagac A
- Pagenkopf D
- Pal S
- Palladino KJ
- Palmaccio VM
- Palmer J
- Pangilinan M
- Paredes BL
- Parveen N
- Patton SJ
- Pease EK
- Penning BP
- Pereira C
- Pereira G
- Peterson IB
- Piepke A
- Pierson S
- Powell S
- Preece RM
- Pushkin K
- Qie Y
- Racine M
- Ratcliff BN
- Reichenbacher J
- Reichhart L
- Rhyne CA
- Richards A
- Riffard Q
- Rischbieter GRC
- Rodrigues JP
- Rose HJ
- Rosero R
- Rossiter P
- Rucinski R
- Rutherford G
- Saba JS
- Sabarots L
- Santone D
- Sarychev M
- Sazzad ABMR
- Schnee RW
- Schubnell M
- Scovell PR
- Severson M
- Seymour D
- Shaw S
- Shutt GW
- Shutt TA
- Silk JJ
- Silva C
- Skarpaas K
- Skulski W
- Smith AR
- Smith RE
- Smith RJ
- So J
- Solmaz M
- Solovov VN
- Sorensen P
- Sosnovtsev VV
- Stancu I
- Stark MR
- Stephenson S
- Stern N
- Stevens A
- Stiegler TM
- Stifter K
- Studley R
- Sumner TJ
- Sundarnath K
- Sutcliffe P
- Swanson N
- Szydagis M
- Tan M
- Taylor DJ
- Taylor R
- Taylor WC
- Temples D
- Tennyson BP
- Terman PA
- Thomas KJ
- Thomson JA
- Tiedt DR
- Timalsina M
- To WH
- Tomás A
- Tope TE
- Tripathi M
- Tronstad DR
- Tull CE
- Turner W
- Tvrznikova L
- Utes M
- Utku U
- Uvarov S
- Vacheret A
- Vaitkus A
- van der Grinten MGD
- Va’vra J
- Verbus JR
- Vietanen T
- Voirin E
- Vuosalo CO
- Walcott S
- Waldron WL
- Walker K
- Wang JJ
- Wang L
- Wang R
- Wang W
- Wang Y
- Watson JR
- Weatherly S
- Webb RC
- Wei W-Z
- While M
- White DT
- White JT
- White RG
- Whitis TJ
- Wilson K
- Wisniewski WJ
- Witherell MS
- Wolfs FLH
- Wolfs JD
- Woodward D
- Worm SD
- Xiang X
- Xiao Q
- Xu J
- Yeh M
- Yin J
- Young I
- Zarzhitsky P
- Zhang C
- Publication venue
- 'Springer Science and Business Media LLC'
- Publication date
- 29/08/2020
- Field of study
LUX-ZEPLIN (LZ) is a second-generation direct dark matter experiment with spin-independent WIMP-nucleon scattering sensitivity above 1.4×10−48cm2 for a WIMP mass of 40GeV/c2 and a 1000days exposure. LZ achieves this sensitivity through a combination of a large 5.6t fiducial volume, active inner and outer veto systems, and radio-pure construction using materials with inherently low radioactivity content. The LZ collaboration performed an extensive radioassay campaign over a period of six years to inform material selection for construction and provide an input to the experimental background model against which any possible signal excess may be evaluated. The campaign and its results are described in this paper. We present assays of dust and radon daughters depositing on the surface of components as well as cleanliness controls necessary to maintain background expectations through detector construction and assembly. Finally, examples from the campaign to highlight fixed contaminant radioassays for the LZ photomultiplier tubes, quality control and quality assurance procedures through fabrication, radon emanation measurements of major sub-systems, and bespoke detector systems to assay scintillator are presented