The Path to the Search for Rare Event Signals in XENON1T and XENONnT Dark Matter Experiments PDF Download
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Author: Tianyu Zhu Publisher: ISBN: Category : Languages : en Pages : 0
Book Description
The other is the search for the neutrinoless double-beta decay at its ?-value, ?_?? = (2457.83$\pm$0.37)\,keV. The analysis demonstrated that the relative energy resolution at one ?/? is as low as (0.80±$0.02) % in its one-ton fiducial mass, and for single-site interactions at ?_??, a world-leading resolution in ??e experiment that enhance the experimental sensitivity to the neutrinoless double-beta decay events.
Author: Tianyu Zhu Publisher: ISBN: Category : Languages : en Pages : 0
Book Description
The other is the search for the neutrinoless double-beta decay at its ?-value, ?_?? = (2457.83$\pm$0.37)\,keV. The analysis demonstrated that the relative energy resolution at one ?/? is as low as (0.80±$0.02) % in its one-ton fiducial mass, and for single-site interactions at ?_??, a world-leading resolution in ??e experiment that enhance the experimental sensitivity to the neutrinoless double-beta decay events.
Author: Daniel Wenz Publisher: ISBN: Category : Languages : en Pages : 0
Book Description
A rich number of astronomical and cosmological observations suggest the existence of a massive, non-luminous, and non-relativistic, matter component in the universe which is five times more abundant than baryonic matter and is commonly referred as to dark matter (DM). Although so far eluding from detection, one class of promising DM candidates are weakly interacting massive particles (WIMPs) which arise naturally from many beyond the Standard Model (BSM) theories. The XENON Dark Matter Project aims to directly detect WIMPs, and other kinds of rare event signals, by utilizing large-scale liquid xenon (LXe) dual-phase time projection chambers (TPCs). The newest generation of experiment, called XENONnT, utilizes a TPC with a total sensitive LXe mass of 5.9 t, and was designed as a fast upgrade of its predecessor XENON1T. In addition to its larger TPC, XENONnT was augmented with the world's first water Cherenkov neutron veto (NV), which was mounted inside the already existing water Cherenkov muon veto water tank of XENON1T. Neutrons emitted by detector materials can undergo a single back-scatter inside the TPC producing a signal which is indistinguishable from WIMPs. The NV has the task to mitigate this potential threat for the scientific reach of the experiment by tagging these escaping neutrons through their delayed neutron capture on hydrogen. In the presented work, the results of the first weakly interacting massive particle (WIMP) search science run, called SR0, are discussed. SR0 features a blind analysis between 3.3 keV and 60.5 keV nuclear recoils energies with a total exposure of about 1.1 tonne-year, utilizing the lowest ever achieved electronic recoil background of (15.8 ± 1.3) events/(t · y · keV) in a LXe. No significant excess was found in the data, setting the lowest upper limit of 2.58 · 10-47 cm2 for spin-independent (SI) interactions of 28 GeV/c2 WIMPs at a 90% confidence level. These results have also been published in [Apr+23b] as part of the presented work. To obtain these results, this thesis discusses the commissioning of the XENONnT neutron veto (NV), and the calibration of its neutron tagging efficiency. The tagging efficiency was found to be (53.1±2.8)% which is the highest efficiency ever measured in a water Cherenkov detector. The efficiency of the NV, as well as the nuclear recoil (NR) response of the time projection chamber (TPC), were calibrated using tagged neutrons from an Americium-Beryllium (AmBe) neutron source. This technique was deployed for the first time in a liquid xenon (LXe) TPC. It enables a calibration of the NR response with high purity and a remaining pollution of less than 0.1 %. Further, the same calibration data was used to determine the thermal neutron capture cross section of hydrogen which was found to be 336.7 ± 0.4 (stat.)+2.0 -0.0 (sys.) mb. All these analyses are based on the data provided by XENONnT's new processing framework called STRAXEN. As part of the lead developing team, the entire processing chain for the two veto systems of XENONnT was developed, and many additional tools have been implemented. Finally, to enhance the neutron tagging efficiency of the NV even further, the water inside the water tank is going to be doped with Gd-sulfate. As part of the presented work, different Gd-salt samples of the manufacturer Treibacher were analyzed regarding their suitability for the experiment.
Author: Evan Shockley Publisher: Springer Nature ISBN: 3030877523 Category : Science Languages : en Pages : 127
Book Description
This thesis summarizes the original analysis work performed by the author on data from XENON1T, a search for dark matter with a ton-size noble liquid detector operated at Gran Sasso Underground Laboratory in Italy. The nature of dark matter is one of the most open and pressing questions of modern physics, and the unique data acquired with this detector allows the exploration and investigation of several potential scenarios. The analysis of Dr. Shockley searches for a class of elusive elementary particles that interact with the electrons of ordinary atoms, instead of the nucleus. Results of the analysis present, with high confidence, an excess with respect to the expected background. Beyond more mundane explanations, this additional rate of electron-mediated interactions might be a first hint of physics beyond the standard model. This accessible thesis provides details on the detector, the data, and the theory, delivering to the reader an in-depth and coherent picture of the search for physics beyond the standard model.
Author: Jingqiang Ye Publisher: ISBN: Category : Languages : en Pages : 208
Book Description
Numerous evidence suggests that the majority of matter in the Universe is made of a rarely interacting, non-luminous component, termed dark matter. The XENON1T experiment, utilizing a two-phase liquid xenon time projection chamber, was primarily designed to search for Weakly Interacting Massive Particles (WIMPs), one of the most promising dark matter candidates. With one tonne-year exposure, XENON1T placed the most stringent upper limits of WIMP interaction strength for a large range of WIMP masses and a variety of interaction types. The unprecedented low background in XENON1T also enabled competitive searches for electronic recoil signals. An excess was observed above the known background at low energies and is most prominent between 2 and 3 keVee. This excess favors solar axions over backgrounds at 3.4 sigma, a hypothetical particle arising from the Peccei-Quinn theory to solve the strong CP problem. The resulting axion couplings, however, are in strong tension with astrophysical constraints. The excess can also be explained by beta decays of tritium at 3.2 sigma with a trace amount, which can neither be confirmed nor be rejected with the current knowledge of its production and mitigation mechanisms. If an unconstrained tritium component is added to both alternate and null hypotheses, the significance of the solar axion hypothesis is reduced to 2.0 sigma. This search also includes other electronic recoil signals, such as an enhanced neutrino magnetic moment, bosonic dark matter, and leptophilic dark matter. The prospect of XENONnT, the next-generation experiment that is expected to take science data in 2021, is also discussed in the context of searching for WIMPs and deciphering the excess observed in XENON1T, respectively.
Author: Jelle Aalbers Publisher: ISBN: 9789462339842 Category : Languages : en Pages : 193
Book Description
Most matter in the universe consists of 'dark matter' unknown to particle physics. Deep underground detectors such as XENON1T attempt to detect rare collisions of dark matter with ordinary atoms. This thesis describes the first dark matter search of XENON1T, how dark matter signals would appear in the detector, and the statistical techniques used in the search. The final chapters set world-leading constraints on the cross-section with which dark and normal matter interact.
Author: David Cline Publisher: Springer Science & Business Media ISBN: 9400772416 Category : Science Languages : en Pages : 140
Book Description
These proceedings provide the latest results on dark matter and dark energy research. The UCLA Department of Physics and Astronomy hosted its tenth Dark Matter and Dark Energy conference in Marina del Rey and brought together all the leaders in the field. The symposium provided a scientific forum for the latest discussions in the field. Topics covered at the symposium: •Status of measurements of the equation of state of dark energy and new experiments •The search for missing energy events at the LHC and implications for dark matter search •Theoretical calculations on all forms of dark matter (SUSY, axions, sterile neutrinos, etc.) •Status of the indirect search for dark matter •Status of the direct search for dark matter in detectors around the world •The low-mass wimp search region •The next generation of very large dark matter detectors •New underground laboratories for dark matter search
Author: Tianyu Zhu
Author: Tianyu Zhu
Author: Daniel Wenz
Author: Evan Shockley
Author: Jingqiang Ye
Author: Jelle Aalbers
Author: Elena Aprile
Author: Pueh Leng Tan
Author: Elena Aprile
Author: William Claiborne Taylor
Author: David Cline