光学元件、激光晶体、红外光学、闪烁体、晶圆与衬底

应用说明光学元件激光晶体和元件红外光学光学滤光片晶圆和基板闪烁体晶体材料玻璃材料

最新博客

带熔融石英基板玻璃单Ce:YAG闪烁体屏的技术概述

详细介绍加熔融石英玻璃基板的Ce:YAG闪烁体晶体的技术原理。内容包括材料组成、X射线激发下的荧光发射原理、薄膜闪烁行为、粘合层结构、制造工艺以及在高分辨率X射线和软X射线成像中的应用。..

Nd:YVO₄晶体技术概述

Nd:YVO₄（钕掺杂钒酸钇）晶体的全面技术说明，涵盖光学和物理性质、1064 nm发射机制、生长和加工技术，以及它们在二极管泵浦固态激光器、频率转换和先进光子学应用中的应用。..

Ce:YAG晶体技术概述

全面介绍Ce:YAG（铈掺杂钇铝石榴石）闪烁晶体的技术细节，包括材料组成、发光机制、采用直拉法制造工艺以及在X射线成像、LED荧光和辐射探测等领域的应用。..

Cr:YAG晶体技术详解

深入技术概述Cr:YAG（铬掺杂钇铝石榴石）晶体，重点介绍其可饱和吸收机制、Czochralski法制备工艺以及作为脉冲激光系统、激光打标和测距技术中被动调Q元件的应用。..

LYSO:Ce 晶体简介 | 结构、特性和应用

了解 LYSO:Ce 闪烁晶体——其成分、发光机理、提拉生长工艺以及在 PET、无损检测和辐射探测中的应用。..

硫族玻璃及其在LWIR红外光学中的应用与性能解析

随着配备非制冷 FPA 探测器的长波红外（LWIR）热成像的发展，由硫族玻璃制成的透镜在多个行业和领域中发挥着重要作用，包括枪瞄、导弹监控、安全监控等。有关硫族玻璃的性能、技术数据表、交叉参考表以及应用，请参阅 Shalom EO 的文章。

Optical Substrate Material Selection Guide

The selection of optical substrate material is a vital step to determine the best appropriate optics for your individual applications. The characteristics(optical transmission, refractive index, hardness, etc.) of representative optical materials such as N-BK7, UV Fused Silica, Zerodur Glass, Chalcogenide Glass, BaF2, CaF2, MgF2, Germanium, Zinc Selenide, ZnS, Sapphire, Silicon, alpha-bbo, calcite, YVO4, and F2 glass are introduced and compared in this article from Shalom.

Optical Basics: Spherical Aberrations and Coma

This is a short piece of explanations about spherical aberrations and coma/comatic aberrations, which belong to the wider range of optical aberrations. Straightforward and readable detailed information, illustration diagrams of the complex and intriguing concepts of spherical aberrations and coma/comatic aberrations.,

What are Thermal Camera Lenses

This article is a basic introduction to Thermal Camera Lenses, which refers to the lens components used for infrared thermal imaging.

LWIR Imaging VS MWIR Imaging, Which is Better?

This article is a thorough comparison of the differences and features of LWIR and MWIR thermal imaging cameras, comparing the emittance and thermal contrast in the two spectral regions, the impact of climate/thermal effects, LWIR and MWIR thermal imaging camera lenses, costs, and applications.

Selection Tutorial for Lens Assemblies

This is a basic tutorial and guide to help you understand some important glossaries when you are selecting Optical Lenses and Camera Lenses.

Passive Thermal Imaging and C-UAS Techniques

Both state and non-state parties face the imposing threats from the weaponization and illegal intrusion of UAS. The development of Counter-UAS, or C-UAS, in particular, Counter-Small UAS to detect, track, and intercept drones has become an urgent mission. The article discusses the challenges in the current C-UAS market and evaluates various approaches incorporated into the C-UAS, including LWIR, MWIR Passive Thermal Imaging and other approaches like radar, visual cameras, SWIR imaging.