SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2996104379> ?p ?o ?g. }

Showing items 1 to 74 of 74 with 100 items per page.

W2996104379 abstract "One of the most exciting mysteries of modern physics is that of dark matter. While there is a multitude of evidence for its existence, its nature remains unknown. Today, numerous experiments search for weakly interacting massive particles (WIMPs) which could be the constituents of dark matter. Among these is the XENON project. XENON uses a time projection chamber ﬁlled with liquid xenon as target, detecting both the prompt scintillation light and the ionisation charge that is created when a particle such as a WIMP scatters oﬀ a xenon atom. The XENON100 detector has been taking science data since 2010, leading to the most stringent exclusion limit on spin-independent WIMP-nucleon interactions at the time of writing this thesis, with a minimum of 2 · 10−45 cm2 at 55 GeV/c2 . Its successor, XENON1T is currently being constructed and expected to begin commissioning by the end of 2014. Using 2.2 t of liquid xenon as target it aims on improving upon the sensitivity of XENON100 by two orders of magnitude, with a background expectation of less than one event in a total exposure of 2 t·y. The focus of this thesis lies on the photomultiplier tubes (PMTs) that are used in the XENON100 detector and those that will be used in XENON1T. While XENON100 had already been fully assembled before the start of this PhD project, its 242 PMTs have been subject to a weekly calibration with LED light throughout the entire time the detector was taking science data. This allowed to monitor and ensure the stability of various PMT parameters, namely the gain and the dark count rate. The results of these calibrations and their impact on the science run of 2011/2012 are presented in Chapter 5. For XENON1T a new, larger (3 inch in diameter) type of PMT will be used. To be used in this experiment a PMT must fulﬁl a multitude of requirements: It must be able to detect single photons with good resolution as well as large light signals of several tens of thousands of photons, which can, during calibration of the detector, occur at a repetition rate of several hundred hertz. At the same time it must be stable over long time periods at the conditions of a cryogenic time projection chamber. It is also necessary that the radioactive contamination of the PMT contributes as little as possible to the overall background of the experiment, and that it does not introduce too much heat into the detector. The PMT has therefore been thoroughly tested, including a long-time stability test in liquid xenon and a test with several cooling cycles. A description of these tests and the results can be found in Chapter 6. The PMT has been found to be suitable for XENON1T and will now be used to instrument the detector. Some of the properties of the PMT behaviour do not only originate from the PMT itself, but also from its voltage divider base. The development of a circuit layout for this base that is optimised for the requirements of XENON1T is described in Chapter 7. The main diﬃculty was to ﬁnd a compromise between linearity, which can be improved by increasing the base current and using additional capacitors, power dissipation and the total amount of material, which has to be minimised in order to not introduce additional radioactive background. The selection of the materials that will be used for the bases in XENON1T is also presented. Contributions to the analysis of the electromagnetic background spectrum of the XENON100 experiment are also a part of this thesis. The spectrum has been compared to data from Monte Carlo simulations based on the known radioactivity of the detector materials, showing good agreement. While studying the background, the need for an additional position-dependent correction of the light signals proportional to the ionisation charge was also discovered." @default.
W2996104379 created "2019-12-26" @default.
W2996104379 creator A5071433635 @default.
W2996104379 date "2014-01-01" @default.
W2996104379 modified "2023-09-24" @default.
W2996104379 title "Light detectors for the XENON100 and XENON1T dark matter search experiments" @default.
W2996104379 doi "https://doi.org/10.5167/uzh-164360" @default.
W2996104379 hasPublicationYear "2014" @default.
W2996104379 type Work @default.
W2996104379 sameAs 2996104379 @default.
W2996104379 citedByCount "3" @default.
W2996104379 countsByYear W29961043792014 @default.
W2996104379 countsByYear W29961043792015 @default.
W2996104379 crossrefType "dissertation" @default.
W2996104379 hasAuthorship W2996104379A5071433635 @default.
W2996104379 hasConcept C102637530 @default.
W2996104379 hasConcept C109214941 @default.
W2996104379 hasConcept C113879476 @default.
W2996104379 hasConcept C120665830 @default.
W2996104379 hasConcept C121332964 @default.
W2996104379 hasConcept C159249277 @default.
W2996104379 hasConcept C168173289 @default.
W2996104379 hasConcept C169192303 @default.
W2996104379 hasConcept C172790937 @default.
W2996104379 hasConcept C185544564 @default.
W2996104379 hasConcept C26405456 @default.
W2996104379 hasConcept C44870925 @default.
W2996104379 hasConcept C548442186 @default.
W2996104379 hasConcept C66157390 @default.
W2996104379 hasConcept C78470386 @default.
W2996104379 hasConcept C94915269 @default.
W2996104379 hasConceptScore W2996104379C102637530 @default.
W2996104379 hasConceptScore W2996104379C109214941 @default.
W2996104379 hasConceptScore W2996104379C113879476 @default.
W2996104379 hasConceptScore W2996104379C120665830 @default.
W2996104379 hasConceptScore W2996104379C121332964 @default.
W2996104379 hasConceptScore W2996104379C159249277 @default.
W2996104379 hasConceptScore W2996104379C168173289 @default.
W2996104379 hasConceptScore W2996104379C169192303 @default.
W2996104379 hasConceptScore W2996104379C172790937 @default.
W2996104379 hasConceptScore W2996104379C185544564 @default.
W2996104379 hasConceptScore W2996104379C26405456 @default.
W2996104379 hasConceptScore W2996104379C44870925 @default.
W2996104379 hasConceptScore W2996104379C548442186 @default.
W2996104379 hasConceptScore W2996104379C66157390 @default.
W2996104379 hasConceptScore W2996104379C78470386 @default.
W2996104379 hasConceptScore W2996104379C94915269 @default.
W2996104379 hasLocation W29961043791 @default.
W2996104379 hasOpenAccess W2996104379 @default.
W2996104379 hasPrimaryLocation W29961043791 @default.
W2996104379 hasRelatedWork W126152069 @default.
W2996104379 hasRelatedWork W1663479621 @default.
W2996104379 hasRelatedWork W1967104013 @default.
W2996104379 hasRelatedWork W2014823815 @default.
W2996104379 hasRelatedWork W2254381879 @default.
W2996104379 hasRelatedWork W2419272296 @default.
W2996104379 hasRelatedWork W2759085078 @default.
W2996104379 hasRelatedWork W2763528952 @default.
W2996104379 hasRelatedWork W2802359053 @default.
W2996104379 hasRelatedWork W2921266790 @default.
W2996104379 hasRelatedWork W2972498283 @default.
W2996104379 hasRelatedWork W2977543937 @default.
W2996104379 hasRelatedWork W3030767038 @default.
W2996104379 hasRelatedWork W3100063364 @default.
W2996104379 hasRelatedWork W3100689118 @default.
W2996104379 hasRelatedWork W3104635383 @default.
W2996104379 hasRelatedWork W3129862956 @default.
W2996104379 hasRelatedWork W3155386420 @default.
W2996104379 hasRelatedWork W3160076090 @default.
W2996104379 hasRelatedWork W3166441305 @default.
W2996104379 isParatext "false" @default.
W2996104379 isRetracted "false" @default.
W2996104379 magId "2996104379" @default.
W2996104379 workType "dissertation" @default.