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Performance study of a cesium iodide photocathode-based UV photon detector in Ar/CH_(4) mixture 被引量:1
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作者 G.Baishali V.Radhakrishna +2 位作者 V.Koushal K.Rakhee k.rajanna 《Photonics Research》 SCIE EI CAS 2014年第3期92-96,共5页
The detection efficiency of a gaseous photomultiplier depends on the photocathode quantum efficiency and the extraction efficiency of photoelectrons into the gas.In this paper we have studied the performance of an UV ... The detection efficiency of a gaseous photomultiplier depends on the photocathode quantum efficiency and the extraction efficiency of photoelectrons into the gas.In this paper we have studied the performance of an UV photon detector with P10 gas in which the extraction efficiency can reach values near to those in vacuum operated devices.Simulations have been done to compare the percentage of photoelectrons backscattered in P10 gas as well as in the widely used neon-based gas mixture.The performance study has been carried out using a single stage thick gas electron multiplier(THGEM).The electron pulses and electron spectrum are recorded under various operating conditions.Secondary effects prevailing in UV photon detectors like photon feedback are discussed and its effect on the electron spectrum under different operating conditions is analyzed. 展开更多
关键词 PHOTON MIXTURE MULTIPLIER
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Spatial resolution optimization in a THGEM-based UV photon detector
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作者 P.Ray G.Baishali +1 位作者 V.Radhakrishna k.rajanna 《Radiation Detection Technology and Methods》 2018年第2期60-66,共7页
Introduction THick Gas Electron Multiplier(THGEM)is considered in many UV photon detector applications.It has the capability of detecting single photon and imaging with high sensitivity.Operating parameters such as ch... Introduction THick Gas Electron Multiplier(THGEM)is considered in many UV photon detector applications.It has the capability of detecting single photon and imaging with high sensitivity.Operating parameters such as choice of gas mixture,pressure,drift field,drift gap,multiplication voltage,induction field and induction gap play an important role in deciding the spatial resolution of the detector.Detailed simulation study enables to optimize the above-mentioned parameters for a given THGEM-based imaging detector and hence to achieve improved performance for the same.Materials and methods Simulation,using ANSYS and Garfield++,starts with the release of primary electrons at random coordinates on the photocathode plane.They are tracked as they pass through the drift gap and THGEM hole till the electron cloud reaches anode plane.Distribution of electron cloud on the anode plane along X and Y axis is plotted in histogram and fitted with Gaussian function to determine spatial resolution.Ar/CO_(2)(70:30)mixture,which shows higher ETE and lower transverse diffusion,is chosen for this simulation study.Conclusion Transverse diffusion has a major impact on both ETE and the spatial resolution.Lower transverse diffusion coefficient is always desired for having better resolution as well as for ETE.It is found from the simulation study that higher gas pressure,lower drift field and induction field,smaller drift and induction gap can provide optimum detection efficiency with the best spatial resolution.The simulation method proposed here can also be extended to X-ray imaging detectors. 展开更多
关键词 Thick gas electron multiplier(THGEM) UV photon detectors Electron transfer efficiency Spatial resolution simulation Garfield++
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