DOCSLIB.ORG
Explore
Sign Up
Log In
Upload
Search
Home
» Tags
» PandaX
PandaX
Future Plan of the Pandax Experiment
Gustavo Marques-Tavares, Stanford Institute for Theoretical Physics
Neutrinoless Double Beta Decay Searches
Diurnal Effect of Sub-Gev Dark Matter Boosted by Cosmic Rays
27. Dark Matter
35. Particle Detectors for Non-Accelerator Physics
An Improved Design of the Readout Base Board of the Photomultiplier Tube for Future Pandax Dark Matter Experiments
Search for Neutrinos from Decaying Dark Matter with Icecube
Arxiv:2008.10279V2 [Hep-Ph] 4 Jun 2021
Potential Isotope Needs of Double Beta Decay and Dark Matter Experiments
Searching for Solar Axions Using Data from the Sudbury Neutrino Observatory
Search for Light Dark Matter–Electron Scattering in the Pandax-II Experiment
Recent Pandax-II Results on Dark Matter Search and Status of Pandax-4T
Topological Background Discrimination in the Pandax-III Neutrinoless Double Beta Decay Experiment
Neutrino Signals at Dark Matter Direct Detection Experiments
Dark Matter Search Results from the Pandax-II Experiment Mengjiao XIAO University of Maryland, College Park on Behalf of Pandax-II Collaboration
Mev Dark Matter Complementarity and the Dark Photon Portal
Neutrinoless Double Beta Decay Searches: Status and Prospects
Top View
Latest Results and Status of Pandax Experiment
GAPS: a New Cosmic Ray Antimatter Experiment Sean Quinn
Status and Recent Dark Matter Search Results from the Pandax Experiment
Erratum: Dark Photons from Captured Inelastic Dark Matter Annihilation: Charged Particle Signatures [Phys. Rev. D 95, 075015 (2017)]
Letter of Interest the Pandax Experiment
Arxiv:1707.07921V2 [Hep-Ex] 3 Oct 2017
Pandax-III: Searching for Neutrinoless Double Beta Decay with High Pressure 136Xe Gas Time Projection Chambers
Annual Report from the Pandax Collaboration, Dec. 2019 Executive
Pos(ICHEP2018)114 ∗†
[email protected]
Speaker
Neutrinoless Double-Beta Decays
Reexamining the Solar Axion Explanation for the XENON1T Excess
The Pandax-4T Dark Matter Experiment Ren Xiangxiang on Behalf of Pandax-4T Collaboration Shanghai Jiao Tong University
Pandax: a Dark Matter Experiment at Jinping
New Mechanism for Matter-Antimatter Asymmetry and Connection with Dark Matter
Bolometers with Al Film Coating: Towards the Surface Background Rejection
Sterile Neutrino Portal to Dark Matter II: Exact Dark Symmetry
Dark Sunshine: Detecting Dark Matter Through Dark Photons from the Sun
Generalized Statistical Mechanics of Cosmic Rays: Application to Positron-Electron Spectral Indices Received: 28 June 2017 G
Abstract Pandax-Ii Dark Matter Detector and Its
Arxiv:1709.00688V1 [Astro-Ph.CO] 3 Sep 2017
Pos(ICRC2017)1085 ∗†
[email protected]
Speaker
From Pandax-I to Pandax-II
Arxiv:1710.05190V1 [Hep-Ph] 14 Oct 2017 Nuclei
Progress Report and Future Plan of the Pandax Experiment Report at the CJPL International Advisory Committee Meeting Pandax Collaboration, Oct
Neutrinoless Double Beta Decay
Jhep02(2020)134
Worldwide Underground Facilities Jaret Heise, Science Director (On Behalf of Many!)
Search for Dark Matter with the PICO-500 Experiment Guillaume Giroux Queen’S University, Kingston, Ontario, Canada TAUP 2021
Isospin-Violating Dark Matter in the Light of Recent Data
Pandax Dark Matter Search
Dark-Matter Hunt Gets Deep China Launches World’S Deepest Particle-Physics Experiment — but It Joins a Crowded Field
New Limits on Dark Photons from Solar Emission and Kev Scale Dark Matter
PANDAX-III: a High-Pressure 136Xe Gas TPC for Neutrinoless Double Beta Decay Search
Pandax-III: 0Νββ Search at CJPL Ke Han (韩柯) Shanghai Jiao Tong
The PANDAX Experiment Particle and Astroparticle Xenon Observatory
Arxiv:1807.01936V2 [Hep-Ex] 1 Apr 2019 Density
Searching for Neutrino-Less Double Beta Decay of 136Xe with Pandax-II Liquid Xenon Detector*
Pandax III for the Search of Neutrinoless Double Beta Decay
CUPID: CUORE Upgrade with Particle Identification
Implementation Plan 2017 - 2022
Shanghai Jiao Tong University on Behalf of the Pandax-III Collaboration