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Study of the basic performance of the XRPIX for the future astronomical X-ray satellite

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arxiv 1507.06868 v1 pith:B3QBWVMZ submitted 2015-07-24 physics.ins-det

Study of the basic performance of the XRPIX for the future astronomical X-ray satellite

classification physics.ins-det
keywords xrpixnoiseresolutionenergyx-raycurrentleakperformance
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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We have developed CMOS imaging sensor (XRPIX) using SOI (Silicon-On-Insulator) technology for the X-ray astronomical use. XRPIX(X-Ray soiPIXel) has advantage of a high time resolution, a high position resolution and an observation in a wide X-ray energy band with a thick depletion layer of over 200um. However, the energy resolution of XRPIX is not as good as one of X-ray CCD. Therefore improvement of the the energy resolution is one of the most important development item of XRPIX. In order to evaluate the performance XRPIX more precisely, we have investigated on the temperature dependence of the basic performance, such as readout noise, leak current, gain and energy resolution, using two type of XRPIX, XRPIX1 and XRPIX2b_CZ. In our study, we confirmed the readout noise, the leak current noise and the energy resolution clearly depended on the operating temperature of XRPIX. In addition, we divided the readout noise into the leak current noise and the circuit origin noise. As a result, we found that noise of the electronic circuitry origin was proportional to the square root of operating temperature.

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