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Parameterization of Pulses from a Particle Detector Using a FlashADCHuang, Yunyi January 2014 (has links)
With the deep exploration of particle physics, particle accelerators, detection methods, data recording and processing, and application of computing technology are continuously developing. It has not only brought progress in particle physics, but also promoted the development of the Science and Technology. The main focus of this thesis is data recording and processing. It provides a calibration method for pulses processed by ADCs. It uses some existing filters to achieve the accurate parameters of pulses and existing concept to do the comparison among filters. The FPGA implementation scheme is also discussed in the paper.
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Development of a Transmission-type Ultra-thin ScCVD Diamond ∆E Detector for Alpha ParticlesCheng, Xingzhi January 2020 (has links)
We present an ultra-thin transmission-type radiation detector developed for counting microbeam alpha particles. The ∆E alpha detector is a single crystal chemical vapor deposited diamond (ScCVDD) and will be installed between the microbeam accelerator window and a biologic sample. The commercially available optical grade ScCVDD sample (3 mm × 3 mm × 50 µm) was etched down to a few µm thickness which allows alpha particles to penetrate, and then it was followed by the surface cleaning, electrical contact deposition and post-metallization annealing. SRIM code and MCNP6 were used for energy loss calculation of alpha particles in electrodes and diamond and pulse height spectra prediction. In order to evaluate the performance of the ultra-thin ScCVDD detector, a ∆E-E detectors system was setup using a calibration source, the ScCVD detector and a silicon surface barrier detector (SBD). The absolute and intrinsic totally efficiency were determined as 0.3 % and 16 % respectively. Alpha and gamma peaks were observed while the peak resolution is not quite promised. The transmission ability of the ScCVDD detector was verified by applying coincidence operation with 0.22 µs time window. The thickness of the ultra-thin diamond sample was reassessed to be 8.315±0.690 µm from ∆E-E spectrometery. / Thesis / Master of Science (MSc)
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A Modified Detector Concept for SuperCDMS: The HiZIP and Its Charge PerformancePage, Kedar Mohan 03 October 2013 (has links)
SuperCDMS is a leading direct dark matter search experiment which uses solid state detectors (Ge crystals) at milliKelvin temperatures to look for nuclear recoils caused by dark matter interactions in the detector. ‘Weakly Interacting Massive Particles’ (WIMPs) are the most favoured dark matter candidate particles. SuperCDMS, like many other direct dark matter search experiments, primarily looks for WIMPs. The measurement of both the ionization and the lattice vibration (phonon) signals from an interaction in the detector allow it to discriminate against electron recoils which are the main source of background for WIMP detection.
SuperCDMS currently operates about 9 kgs worth of germanium detectors at the Soudan underground lab in northern Minnesota. In its next phase, SuperCDMS SNOLAB, it plans to use 100-200 kg of target mass (Ge) which would allow it to probe more of the interesting and unexplored parameter space for WIMPs predicted by theoretical models. The SuperCDMS Queen’s Test Facility is a detector testing facility which is intended to serve detector testing and detector research and development purposes for the SuperCDMS experiment.
A modified detector called the ‘HiZIP’ (Half-iZIP), which is reduced in complexity in comparison to the currently used iZIP (interleaved Z-sensitive Ionization and Phonon mediated) detectors, is studied in this thesis. The HiZIP detector design also serves to discriminate against background from multiple scatter events occurring close to the surfaces in a single detector. Studies carried out to compare the surface event leakage in the HiZIP detector using limited information from iZIP data taken at SuperCDMS test facility at UC Berkley produce a highly conservative upper limit of 5 out of 10,000 events at 90% confidence level. This upper limit is the best among many different HiZIP configurations that were investigated and is comparable to the upper limit calculated for an iZIP detector in the same way using the same data. A real HiZIP device operated at Queen’s Test Facility produced an exposure limited 90% upper limit of about 1 in 100 events for surface event leakage. The data used in these studies contain true nuclear recoil events from cosmogenic and ambient neutrons. This background was not subtracted in the calculation of the upper limits stated above and hence they are highly conservative.
A surface event source was produced by depositing lead-210 from radon exposure onto a copper plate. This source was then used to take data for a surface event discrimination study of the HiZIP detector operated at Queen’s Test Facility.
A study of the contribution of the noise from capacitive crosstalk between charge sensors in a HiZIP detector configuration was investigated, confirming the expectation that no significant drop in performance is to be expected due to this effect. / Thesis (Master, Physics, Engineering Physics and Astronomy) -- Queen's University, 2013-09-30 23:48:49.375
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Development of a Beam Loss Monitoring system for CTF-3 TBLBranger, Erik January 2013 (has links)
The Compact Linear Collider (CLIC) study is a feasibility study for a new linear accelerator that aims to reach a center-of-mass collision energy of 3 TeV. To keep the length of the accelerator reasonable, a high accelerating gradient of 100 MeV/m is provided by a novel acceleration scheme, where power is extracted from a high-intensity drive beam to accelerate a high-energy main beam. The Test Beam Line (TBL) at the CLIC Test Facility 3 (CTF-3) is an experimental beamline constructed to test the technology for deceleration and power extraction of the drive beam. A Beam Loss Monitoring (BLM) system is currently under development to investigate the amount of beam loss at the TBL, with the aim of providing information about the stability of the beam under deceleration. These detectors are placed outside of the accelerator, and measure the secondary particle shower created by particles lost in the TBL. The amount of particles that can be detected by the BLM detectors was simulated using the Monte Carlo transport code FLUKA. Several different loss scenarios were simulated, in order to calculate the intensity and composition of the secondary particle shower at the detector locations. Various approximations for the sensitivity of the detectors were considered, and were combined with the simulated intensity of the shower to estimate the detector output signal per lost particle. These values were compared with data taken by the TBL BLM system, to estimate the amount of beam lost while the TBL is running.
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Integration of a Chemical Sensor and a Particle Detector in a Single Portable SystemJanuary 2012 (has links)
abstract: This work demonstrates the integration of a wearable particulate detector and a wireless chemical sensor into a single portable system. The detection philosophy of the chemical sensor is based on highly selective and sensitive microfabricated quartz tuning fork arrays and the particle detector detects the particulate level in real-time using a nephelometric (light scattering) approach. The device integration is realized by carefully evaluating the needs of flow rate, power and data collection. Validation test has been carried out in both laboratory and in field trials such as parking structures and highway exits with high and low traffic emissions. The integrated single portable detection system is capable of reducing the burden for a child to carry multiple devices, simplifying the task of researchers to synchronize and analyze data from different sensors, and minimizing the overall weight, size, and cost of the sensor. It also has a cell phone for data analysis, storage, and transmission as a user-friendly interface. As the chemical and particulate levels present important exposure risks that are of high interests to epidemiologists, the integrated device will provide an easier, wearable and cost effective way to monitor it. / Dissertation/Thesis / M.S. Electrical Engineering 2012
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Development of a low-mass high-efficient charged particle detector for KL→π0νν search(KL→π0νν探索のための低物質量、高検出効率の荷電粒子検出器の開発) / KL→π0νν探索のための低物質量、高検出効率の荷電粒子検出器の開発Naito, Daichi 23 May 2016 (has links)
京都大学 / 0048 / 新制・課程博士 / 博士(理学) / 甲第19882号 / 理博第4209号 / 新制||理||1605(附属図書館) / 32959 / 京都大学大学院理学研究科物理学・宇宙物理学専攻 / (主査)教授 中家 剛, 教授 谷森 達, 教授 永江 知文 / 学位規則第4条第1項該当 / Doctor of Science / Kyoto University / DFAM
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A LIQUID CRYSTAL BASEDELECTRON SHOWER DETECTORAdkins, Raymond 31 May 2018 (has links)
No description available.
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Searches for a Charged Higgs Boson in ATLAS and Development of Novel Technology for Future Particle Detector SystemsPelikan, Daniel January 2015 (has links)
The discovery of a charged Higgs boson (H±) would be a clear indication for physics beyond the Standard Model. This thesis describes searches for charged Higgs bosons with the ATLAS experiment at CERN’s Large Hadron Collider (LHC). The first data collected during the LHC Run 1 is analysed, searching for a light charged Higgs boson (mH±<mtop), which decays predominantly into a tau-lepton and a neutrino. Different final states with one or two leptons (electrons or muons), as well as leptonically or hadronically decaying taus, are studied, and exclusion limits are set. The background arising from misidentified non-prompt electrons and muons was estimated from data. This so-called "Matrix Method'' exploits the difference in the lepton identification between real, prompt, and misidentified or non-prompt electrons and muons. The Matrix Method is used in all charged Higgs boson searches in this thesis. In 2024 the LHC will be upgraded into a High Luminosity LHC (HL-LHC). The ATLAS detector is expected to collect around 300 fb-1 of collision data until 2022, whereas the HL-LHC will deliver about 250-300 fb-1 of data per year. This will increase the mean number of interactions per bunch crossing, resulting in larger particle fluxes. This puts challenging requirements on the electronics. In order to keep trigger and data rates at manageable levels, new trigger concepts require more intelligence at early stage which possibly results in more cables and connectors, inside the detector which lead to degraded performance of the detector system. This thesis presents new concepts using wireless technology at 60 GHz, in order add more data links inside the detector system without adding much material. Patch antennas have been developed, operating at 60 GHz. Manufacture methods have been investigated, and the fabrication tolerances and bandwidth of these antennas have been studied. Also, concepts of using passive repeaters have been investigated, to make the 60 GHz signal pass boundaries. These repeaters can be used to connect intelligence inside the detector, but also for reading out data from the whole detector radially.
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Development and Experimental Study of the KOTO Detector System using Three KL Neutral Decay Modes / 長寿命中性K中間子の中性崩壊3モードを用いた、KOTO実験のための検出器の開発と実験的評価Masuda, Takahiko 24 March 2014 (has links)
京都大学 / 0048 / 新制・課程博士 / 博士(理学) / 甲第18076号 / 理博第3954号 / 新制||理||1570(附属図書館) / 30934 / 京都大学大学院理学研究科物理学・宇宙物理学専攻 / (主査)准教授 野村 正, 教授 中家 剛, 教授 鶴 剛 / 学位規則第4条第1項該当 / Doctor of Science / Kyoto University / DFAM
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Fabrication and Characterization of Gallium Nitride Schottky Diode Devices for Determination of Electron-Hole Pair Creation Energy and Intrinsic Neutron SensitivityMulligan, Padhraic Liam January 2015 (has links)
No description available.
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