Stability of Information Readout by Self-pumped Phase Conjugation in Barium Titanate

Photorefractive Materials, Effects, and Devices Pub Date : 1992-05-22 DOI:10.1364/pmed.1991.wc13

F. Lin, D. Sun, G. Leu, M. Fiddy, T. Yang

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Abstract

For real-time optical image storage and processing, we have systematically studied self-pumped phase conjugation (SPPC) [1] in barium titanate (BaTiO3) crystals (from Sanders Associates Inc., Merrimack, NH) in terms of the incident angle θ, the impact position l on the crystal surface, the distance L between the imaging lens and the impact point on the crystal face [Figure 1], the argon-ion laser power P (p-wave with various wavelengths), and the ambient temperature T. We found that the stability of the temporal SPPC intensity IPC (t) strongly depends on these geometrical parameters, θ, l, and L. The objective in this paper is to identify optimal conditions in order to stablize and maximize the temporal evolution of the SPPC reflectivity R(t) which is defined as the ratio of IPC (t) to the intensity IM retro-reflected by a mirror at the position of the crystal to the detector. We have defined the optimal (or stable) condition for the SPPC as |Rmax-R(t)|/Rmax ≤ 0.1, where Rmax is the maximum value of R(t) (recorded within 10 minutes to 1 hour) and also the maximum value in terms of the above geometrical and physical parameters.

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钛酸钡自抽运相位共轭信息读出的稳定性

为了实时光学图像存储和处理，我们系统地研究了钛酸钡(BaTiO3)晶体(来自Sanders Associates Inc.， Merrimack, NH)中的自泵浦相位共轭(SPPC)[1]，包括入射角θ、晶体表面的冲击位置l、成像透镜与晶体表面冲击点之间的距离l[图1]、氩离子激光功率P(不同波长的P波)、我们发现SPPC时间强度IPC (t)的稳定性在很大程度上取决于这些几何参数θ、l和l。本文的目的是确定SPPC反射率R(t)的最佳条件，以稳定和最大化SPPC反射率R(t)的时间演变，R(t)被定义为IPC (t)与由晶体位置的反射镜反射到探测器的强度IM的比值。我们将SPPC的最优(或稳定)条件定义为|Rmax-R(t)|/Rmax≤0.1，其中Rmax是R(t)的最大值(记录在10分钟到1小时内)，也是上述几何和物理参数的最大值。

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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$Photorefractive Materials, Effects, and Devices$

Photorefractive Materials, Effects, and Devices

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