利用能量调制信息设计用于通信的多载波 X 射线源。

IF 1.7 3区 医学 Q3 INSTRUMENTS & INSTRUMENTATION
Youtao Gao, Yixiang Wu, Shijia Li, Daqian Hei, Yajun Tang
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引用次数: 0

摘要

X 射线通信是一种以 X 射线为信息载体的空间通信技术。为了提高 X 射线通信的信息传输能力、通信速率和抗干扰能力,我们提出设计一种新型多靶 X 射线源。该源由一个基于 FPGA 技术的光通道快速切换模块和四个不同靶材的光电 X 射线管组成:四根光电 X 射线管分别装有不同的目标材料:铬、铁、镍和铜。利用 Geant4 软件,我们确定了每种材料的最佳靶厚度,这使我们能够充分利用特征 X 射线进行多通道信号调制传输。此外,使用 CST 软件对粒子轨迹进行模拟并优化电子束后发现,在 20 kV 的电子管电压下,聚焦区的尺寸约为 1.2 mm×1.2 mm。模拟结果表明,Cr、Fe、Ni 和 Cu 靶件可产生四种具有高度独特性的光谱。在一个调制周期内,这些光谱可以通过各种方式组合成 16 种不同的 X 射线光谱信号,从而增加了通信元素的数量,提高了信息传输速率。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Design of a multi-carrier X-ray source for communication with energy modulation information.

X-ray communication is a kind of space communication technology which uses X-ray as information carrier. In order to improve the information transmission capacity, communication rate and anti-interference ability of X-ray communication, we proposes to design a novel multi-target X-ray source. The source is composed of a fast switching module of light channels based on FPGA technology and four photoelectric X-ray tubes with different target materials: Cr, Fe, Ni, and Cu. Using Geant4 software, we determined the optimal target thickness for each material, which enabled us to fully leverage the characteristic X-rays for multi-channel signal modulation transmission. Moreover, using CST software for particle trajectory simulation and optimization of the electron beam revealed that at a tube voltage of 20 kV, the focus area measures approximately 1.2 mm×1.2 mm. The simulations show that four kinds of spectra with high distinctiveness can be generated from the Cr, Fe, Ni, and Cu targets. Within a single modulation period, these spectra can be combined in various ways to create 16 different X-ray spectra signals, thereby increasing the number of communication elements and enhancing the information transmission rate.

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来源期刊
CiteScore
4.90
自引率
23.30%
发文量
150
审稿时长
3 months
期刊介绍: Research areas within the scope of the journal include: Interaction of x-rays with matter: x-ray phenomena, biological effects of radiation, radiation safety and optical constants X-ray sources: x-rays from synchrotrons, x-ray lasers, plasmas, and other sources, conventional or unconventional Optical elements: grazing incidence optics, multilayer mirrors, zone plates, gratings, other diffraction optics Optical instruments: interferometers, spectrometers, microscopes, telescopes, microprobes
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