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Gas electron multiplier based on laser-perforated CVD diamond film: First tests

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arxiv 1606.05788 v1 pith:XFQ5E7UC submitted 2016-06-18 physics.ins-det hep-ex

Gas electron multiplier based on laser-perforated CVD diamond film: First tests

classification physics.ins-det hep-ex
keywords diamondelectronfirstmultiplierfilmmadepolycrystallineradiation-hard
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Gas electron multiplier (GEM) is widely used in modern gas detectors of ionizing radiation in experiments on high-energy physics at accelerators and in other fields of science. Typically the GEM devices are based on a dielectric foil with holes and electrodes on both sides. GEMs made by radiation-hard dielectrics or wide band-gap semiconductors are desirable for some applications. The results of the first tests of the gas electron multiplier made of radiation-hard materials, such as polycrystalline CVD diamond with a thickness of 100 microns is described. Here we report on fabrication of GEM based on free-standing polycrystalline CVD diamond film and its first test.

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