Searching for Neutrinoless Double-Beta Decay of $^{136}$Xe with PandaX-4T,
Shu Zhang et al.(PandaX),
Sci.Bull. 70 (2025) 3244,arXiv:2412.13979.
[PandaX:2024fed]
Searching for Two-Neutrino and Neutrinoless Double Beta Decay of $^{134}$Xe with the PandaX-4T Experiment,
Xiyu Yan et al.,
Phys.Rev.Lett. 132 (2024) 152502,arXiv:2312.15632.
[PandaX:2023ggs]
Searching for new physics with $^{136}$Xe double beta decay spectrum in PandaX-4T,
Zhe Yuan et al.(PandaX),
Phys.Rev.Lett. 136 (2026) 162501,arXiv:2512.04849.
[PandaX:2025yly]
Search for Double Beta Decay of $^{136}$Xe to the $0^+_1$ Excited State of $^{136}$Ba with PandaX-4T,
Lingyin Luo et al.(PandaX),
JHEP 05 (2025) 089,arXiv:2502.03017.
[PandaX-4T:2025jel]
Measurement of two-neutrino double electron capture half-life of $^{124}$Xe with PandaX-4T,
Zihao Bo et al.(PandaX),
JHEP 05 (2025) 119,arXiv:2411.14355.
[PandaX-4T:2024fls]
Searching for Two-Neutrino and Neutrinoless Double Beta Decay of $^{134}$Xe with the PandaX-4T Experiment,
Xiyu Yan et al.,
Phys.Rev.Lett. 132 (2024) 152502,arXiv:2312.15632.
[PandaX:2023ggs]
Determination of Double Beta Decay Half-Life of 136Xe with the PandaX-4T Natural Xenon Detector,
Lin Si et al.(PandaX),
Research 2022 (2022) 9798721,arXiv:2205.12809.
[PandaX:2022kwg]
First Measurement of Solar $^8$B Neutrino Flux through Coherent Elastic Neutrino-Nucleus Scattering in PandaX-4T,
Zihao Bo et al.(PandaX),
Phys.Rev.Lett. 133 (2024) 191001,arXiv:2407.10892.
[PandaX:2024muv]
A Measurement of Solar $pp$ Neutrino Flux using PandaX-4T Electron Recoil Data,
Xiaoying Lu et al.(PandaX),
Chin.Phys.C 48 (2024) 091001,arXiv:2401.07045.
[PandaX:2024jjs]
A First Search for Solar $^8$B Neutrino in the PandaX-4T Experiment using Neutrino-Nucleus Coherent Scattering,
Wenbo Ma et al.(PandaX),
Phys.Rev.Lett. 130 (2023) 021802,arXiv:2207.04883.
[PandaX:2022aac]
Search for lepton portal dark matter in the PandaX-4T experiment,
Xuyang Ning et al.(PandaX),
Phys.Lett.B 864 (2025) 139389,arXiv:2408.14730.
[PandaX:2024pjr]
Exploring New Physics with PandaX-4T Low Energy Electronic Recoil Data,
Xinning Zeng et al.(PandaX),
Phys.Rev.Lett. 134 (2025) 041001,arXiv:2408.07641.
[PandaX:2024cic]
Dark Matter Search Results from 1.54 Tonne$\cdot$Year Exposure of PandaX-4T,
Zihao Bo et al.(PandaX),
Phys.Rev.Lett. 134 (2025) 011805,arXiv:2408.00664.
[PandaX:2024qfu]
Search for cosmic-ray boosted sub-MeV dark matter-electron scatterings in PandaX-4T,
Xiaofeng Shang et al.(PandaX),
Phys.Rev.Lett. 133 (2024) 101805,arXiv:2403.08361.
[PandaX:2024pme]
Search for Dark-Matter-Nucleon Interactions with a Dark Mediator in PandaX-4T,
Di Huang et al.(PandaX),
Phys. Rev. Lett. 131 (2023) 191002,arXiv:2308.01540.
[PandaX:2023xgl]
Search for Light Dark Matter from the Atmosphere in PandaX-4T,
Xuyang Ning et al.(PandaX),
Phys. Rev. Lett. 131 (2023) 041001,arXiv:2301.03010.
[PandaX:2023tfq]
Search for Light Dark Matter with Ionization Signals in the PandaX-4T Experiment,
Shuaijie Li et al.(PandaX),
Phys. Rev. Lett. 130 (2023) 261001,arXiv:2212.10067.
[PandaX:2022xqx]
Constraints on the axial-vector and pseudo-scalar mediated WIMP-nucleus interactions from PandaX-4T experiment,
Zhou Huang et al.(PandaX),
Phys. Lett. B 834 (2022) 137487,arXiv:2208.03626.
[PandaX:2022xas]
Search for Light Fermionic Dark Matter Absorption on Electrons in PandaX-4T,
Dan Zhang et al.(PandaX),
Phys. Rev. Lett. 129 (2022) 161804,arXiv:2206.02339.
[PandaX:2022ood]
A search for two-component Majorana dark matter in a simplified model using the full exposure data of PandaX-II experiment,
Ying Yuan et al.(PandaX),
Phys. Lett. B 832 (2022) 137254,arXiv:2205.08066.
[PandaX:2022djq]
Search for Cosmic-Ray Boosted Sub-GeV Dark Matter at the PandaX-II Experiment,
Xiangyi Cui et al.(PandaX-II),
Phys. Rev. Lett. 128 (2022) 171801,arXiv:2112.08957.
[PandaX-II:2021kai]
Dark Matter Search Results from the PandaX-4T Commissioning Run,
Yue Meng et al.(PandaX-4T),
Phys. Rev. Lett. 127 (2021) 261802,arXiv:2107.13438.
[PandaX-4T:2021bab]
Constraining self-interacting dark matter with the full dataset of PandaX-II,
Jijun Yang et al.(PandaX-II),
Sci. China Phys. Mech. Astron. 64 (2021) 111062,arXiv:2104.14724.
[PandaX-II:2021lap]
Optimization of gain uniformity in thermal bonding Micromegas for the PandaX-III experiment,
Yunzhi Peng, Yuanchun Liu, Zhiyong Zhang, Shaobo Wang, Jianbei Liu, Ming Shao, Yi Zhou,
arXiv:2512.07151, 2025. [Peng:2025uie]
GPS-Synchronized Monitoring of Supernova Bursts in PandaX-4T: Enabling a Neutrino Trigger for Multi-Messenger Astronomy,
Binyu Pang,
arXiv:2511.18916, 2025. [PANDA-X:2025eka]
Neutron-induced nuclear recoil background in the PandaX-4T experiment*,
Zhou Huang et al.(PandaX-4T),
Chin. Phys. C 46 (2022) 115001,arXiv:2206.06087.
[PandaX-4T:2022ldq]
Study of background from accidental coincidence signalsin the PandaX-II experiment*,
Abdusalam Abdukerim et al.(PandaX-II),
Chin. Phys. C 46 (2022) 103001,arXiv:2204.11175.
[PandaX-II:2022waa]
Low radioactive material screening and background control for the PandaX-4T experiment,
Zhicheng Qian et al.(PandaX-4T),
JHEP 06 (2022) 147,arXiv:2112.02892.
[PandaX-4T:2021lbm]
PandaX-xT: a Multi-ten-tonne Liquid Xenon Observatory at the China Jinping Underground Laboratory,
Abdusalam Abdukerim et al.(PandaX),
Sci.China Phys.Mech.Astron. 68 (2025) 221011,arXiv:2402.03596.
[PANDA-X:2024dlo]
The first results of PandaX-4T,
Jianglai Liu(PandaX), 2023.16th Marcel Grossmann Meeting on~Recent Developments in Theoretical and Experimental General Relativity, Astrophysics and Relativistic Field Theories. [Liu:2023dig]
Search Neutrino Unbound
Cross search NU
It is possible to perform a cross search between the various pages of Neutrino Unbound.
This is useful if you want to show the common elements that appear
in the listings of two (or more) different topics or experiments.
