A method of calibrating effective area of focusing X-ray detector by using normal spectrum of Crab pulsar

Zhou, Qingyong; Wei, Ziqing; Jiang, Kun; Deng, Linhua; Liu, Siwei; Ji, Jianfeng; Ren, Hongxiang; Wang, Yidi; Gao-Feng, Ma

doi:10.7498/aps.67.20172352

Cited by 4 publications

(3 citation statements)

References 10 publications

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“…Assuming 𝐿 ∈ 10000, 30000 meters, the effective collection area is 0.4m , 𝜂 0.002 [2] , and the SDD detector efficiency is 50% [14] . The divergence angle 𝜔 0.002 [15] .…”

Section: Spatial Channel Attenuationmentioning

confidence: 99%

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Design of An Intelligent Demodulation Method for X-ray Spectrum Communication

Gao

Dong²,

Jin³

2023

J. Phys.: Conf. Ser.

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X-ray communication based on X-ray spectrum modulation information is a novel communication method, which can effectively improve communication ability and anti-interference ability. In this paper, four characteristic X-rays are chosen to modulate information. The influence of channel attenuation, random noise in space, and miss-shooting rate caused by adjacent targets are discussed. Based on error-correcting output codes and a 10-fold cross-validation method, a neural network intelligent classifier is designed to realize intelligent information demodulation. Simulation results show that if the miss-shooting rate is lower than 0.4 and the photon retention rate after channel attenuation is higher than 0.0008, then the classifier can achieve a recognition success rate of more than 99%. This study provides reliable index requirements for the performance of the four-target material source equipment to be designed next. This paper also provides a theoretical basis for the subsequent further realization of space communication capabilities.

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“…Assuming 𝐿 ∈ 10000, 30000 meters, the effective collection area is 0.4m , 𝜂 0.002 [2] , and the SDD detector efficiency is 50% [14] . The divergence angle 𝜔 0.002 [15] .…”

Section: Spatial Channel Attenuationmentioning

confidence: 99%

“…𝐸 represents the photon energy value. By the X-ray data of solar flares measured by FY-2F [16] , the calibration data of SDD, and the X-ray data of pulsars measured by the HXMT satellite [14] , the above noise in a time slot (1 ms) can be set as:…”

Section: Random Noisementioning

confidence: 99%

Design of An Intelligent Demodulation Method for X-ray Spectrum Communication

Gao

Dong²,

Jin³

2023

J. Phys.: Conf. Ser.

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“…基于这种掠入射的X射线聚焦技术, 1975年Wolter [14] 提出了三种双镜片Wolter构型, 其中的Wolter-I型可以使用多层嵌套结构, 增大有效面积, 被广泛地应用于X 射线天文观测中, 包括EP和eXTP在内的国内外多颗聚焦型望远镜均使用了Wolter-I构型. 我国2016年发射的脉冲星导航实验01星(X-Ray pulsar vavigation-I satellite, XPNAV01)也使用了Wolter-I构型的聚焦镜 [15,16] .…”

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Simulation method of performance of X-ray focusing mirror under actual surface state used in FXT on board EP satellite

Zhu¹,

Lu²,

Chen³

et al. 2022

Acta Phys. Sin.

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The Follow-up X-ray Telescope (FXT) is one of the main payloads on board the Einstein probe satellite. In order to obtain data with high signal-to-noise ratio and realize high-precision positioning of the sources, FXT adopts Wolter-I X-ray focusing optical system which has been wildly used in X-ray astronomy. According to the principle of Wolter-I, combined with the actual manufacture characteristics, several key parameters affecting the optical quality, such as surface roughness Root-Mean Square (RMS) and surface profile error, are simulated by Monte Carlo simulation algorithm. The effect of each parameter is analyzed according to the simulation results. Then, the simulation method is verified by the test results of the focusing mirrors provided by PANTER laboratory, and the surface profile error parameters are restricted. The simulation results of the Half Energy Width (HEW) of the Structural-Thermal Module mirrors are basically consistent with the test results. This method can be effectively applied to later study of focusing mirrors manufacture and to accumulate experience for test and calibration work of FXT focusing mirrors. Furthermore, combined with the tested calibration data, some key performance of the mirrors such as the effective area, vignetting and the point spread function which can compose the on-orbit calibration database can be obtained by this simulation method.

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