XENONnT()
Dark Matter Direct Detection Experiment
()
- Started: Jul 6, 2021,
- Still Running
XENON Collaboration
The up-coming XENONnT experiment utilizes a total of 8.3 tonnes of xenon to search for the ever elusive dark matter particles. In addition to the existing 3.3 tonnes of ultra-pure xenon from XENON1T, another 5 tonnes of xenon were purchased by the XENON collaboration.
Papers per year
Number of authors
8
8
Document Type
16
8
7
1
Subject
17
15
6
4
3
3
24 results
Citation Summary
Most Recent
Collaboration
•- e-Print:
- 2502.18005 [hep-ex]
- e-Print:
- 2502.04209 [physics.ins-det]
Collaboration
•- e-Print:
- 2412.10451 [physics.ins-det]
- e-Print:
- 2412.05264 [physics.ins-det]
Collaboration
•- e-Print:
- 2411.15289 [hep-ex]
Collaboration
•- e-Print:
- 2409.17868 [hep-ex]
Collaboration
•- e-Print:
- 2409.08778 [hep-ex]
- Published in:•
- Phys.Rev.Lett. 133 (2024) 19, 191002
- e-Print:
- 2408.02877 [nucl-ex]
Collaboration
•- e-Print:
- 2406.13638 [physics.data-an]
Collaboration
•- Published in:•
- Eur.Phys.J.C 84 (2024) 8, 784
- e-Print:
- 2402.10446 [physics.ins-det]
Collaboration
•- Published in:•
- Eur.Phys.J.C 84 (2024) 2, 138
- e-Print:
- 2309.11996 [hep-ex]
Collaboration
•- Published in:•
- Phys.Rev.Lett. 131 (2023) 4, 041003
- e-Print:
- 2303.14729 [hep-ex]
Collaboration
•- Published in:•
- JINST 18 (2023) 07, P07054
- e-Print:
- 2212.11032 [physics.ins-det]
Collaboration
•- Published in:•
- Phys.Rev.Lett. 129 (2022) 16, 161805
- e-Print:
- 2207.11330 [hep-ex]
Collaboration
•- Published in:•
- Eur.Phys.J.C 82 (2022) 7, 599
- e-Print:
- 2112.05629 [physics.ins-det]
- ,
- ,
- ,
- ,
- Published in:•
- JINST 16 (2021) 08, P08033
- e-Print:
- 2104.15051 [physics.ins-det]
- Published in:•
- PoS ICRC2021 (2021) 540
- Contribution to:
- , 540
- ICRC 2021