瞬态动态热光学系统建模与仿真

IF 1.9 4区 物理与天体物理 Q3 OPTICS
Luzia Hahn, Peter Eberhard
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引用次数: 3

摘要

在现代高分辨率光学系统中,如天文望远镜或光刻物镜,各种干扰可能导致性能下降。为了预测高精度系统的性能,需要对光学系统进行整体仿真。本文介绍了一种瞬态动态热光学系统的建模与仿真方法。因此,利用弹性多体系统仿真计算动力激励引起的弹性变形、刚体运动和机械应力,利用热有限元分析确定温度变化。然后在梯度折射率射线追踪中考虑变形、运动以及机械和热诱导的应力指数变化。最后,将该方法应用于动态-热单透镜系统。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Transient dynamical-thermal-optical system modeling and simulation

Transient dynamical-thermal-optical system modeling and simulation

In modern high resolution optical systems like astronomical telescopes or lithographic objectives, performance degradations can be caused by various disturbances. Holistic optical system simulation is required to predict the performance or the high precision systems. In this paper a method for transient dynamical-thermal-optical system modeling and simulation is introduced. Thereby, elastic deformation, rigid body motion, and mechanical stresses due to dynamical excitation are calculated using elastic multibody system simulation and temperature changes are determined using thermal finite element analysis. The deformation, the motion, and the mechanically and thermally induced stress index changes are then considered in a gradient-index ray tracing. Finally, the presented method is applied in a dynamical-thermal single lens system.

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来源期刊
CiteScore
2.40
自引率
0.00%
发文量
12
审稿时长
5 weeks
期刊介绍: Rapid progress in optics and photonics has broadened its application enormously into many branches, including information and communication technology, security, sensing, bio- and medical sciences, healthcare and chemistry. Recent achievements in other sciences have allowed continual discovery of new natural mysteries and formulation of challenging goals for optics that require further development of modern concepts and running fundamental research. The Journal of the European Optical Society – Rapid Publications (JEOS:RP) aims to tackle all of the aforementioned points in the form of prompt, scientific, high-quality communications that report on the latest findings. It presents emerging technologies and outlining strategic goals in optics and photonics. The journal covers both fundamental and applied topics, including but not limited to: Classical and quantum optics Light/matter interaction Optical communication Micro- and nanooptics Nonlinear optical phenomena Optical materials Optical metrology Optical spectroscopy Colour research Nano and metamaterials Modern photonics technology Optical engineering, design and instrumentation Optical applications in bio-physics and medicine Interdisciplinary fields using photonics, such as in energy, climate change and cultural heritage The journal aims to provide readers with recent and important achievements in optics/photonics and, as its name suggests, it strives for the shortest possible publication time.
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