Very high resolution optical transition radiation imaging system: Comparison between simulation and experiment

Physical Review Special Topics-accelerators and Beams Pub Date : 2015-10-14 DOI:10.1103/PHYSREVSTAB.18.082803

B. Bolzon, B. Bolzon, B. Bolzon, A. Aryshev, T. Aumeyr, S. Boogert, P. Karataev, K. Kruchinin, T. Lefevre, S. Mazzoni, L. Nevay, M. Shevelev, N. Terunuma, J. Urakawa, C. Welsch, C. Welsch

引用次数: 17

Abstract

Optical transition radiation (OTR) has become a commonly used method for 2D beam imaging measurements. In the Accelerator Test Facility 2 (ATF2) at KEK, beam sizes smaller than the OTR point spread function have been measured. Simulations of the OTR imaging system have been performed using the ZEMAX software to study the effects of optical errors such as aberrations, diffraction, and misalignments of optical components. This paper presents a comparison of simulations of the OTR point spread function with experimental data obtained at ATF2. It shows how the quantification and control of optical errors impacts on optimizing the resolution of the system. We also show that the OTR point spread function needs to be predicted accurately to optimize any optical system and to predict the error made on measurement.

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超高分辨率光学跃迁辐射成像系统:仿真与实验比较

光学跃迁辐射(OTR)已成为一种常用的二维光束成像测量方法。在KEK的加速器测试设施2 (ATF2)中，已经测量到小于OTR点扩展函数的光束尺寸。利用ZEMAX软件对OTR成像系统进行了仿真，研究了光学误差(如像差、衍射和光学元件的不对中)的影响。本文将OTR点扩展函数的模拟结果与ATF2的实验数据进行了比较。说明了光学误差的量化和控制对优化系统分辨率的影响。我们还表明，为了优化任何光学系统和预测测量误差，需要准确地预测OTR点扩展函数。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Physical Review Special Topics-accelerators and Beams 物理-物理：核物理

自引率

0.00%

发文量

审稿时长

3-8 weeks

期刊介绍： Physical Review Special Topics - Accelerators and Beams (PRST-AB), is a peer reviewed, purely electronic journal, distributed without charge to readers and funded by contributions from national laboratories. It covers the full range of accelerator science and technology: subsystem and component technologies, beam dynamics; accelerator applications; and design, operation, and improvement of accelerators used in science and industry. This includes accelerators for high-energy and nuclear physics, synchrotron radiation production, spallation neutron sources, medical therapy, and intense beam applications.

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