连续波激光照射冷却红外探测器失效机理研究

IF 4.6 2区物理与天体物理 Q1 OPTICS

Optics and Laser Technology Pub Date : 2025-04-16 DOI:10.1016/j.optlastec.2025.112967

Zi-Yi Zhang, Chen-Wu Wu

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引用次数: 0

摘要

冷却型红外探测器以其高灵敏度和高性能在许多领域得到了广泛的应用。然而，环境干扰，如强光，可能会导致其性能下降，甚至导致永久性损坏。本文研究了高功率密度激光照射下典型制冷红外探测器的多物理行为和性能退化过程，以评估其在极端条件下的生存能力。实验结果揭示了探测器在连续波激光照射下的电响应和热力学响应，并发现了以前未发现的主要热力学失效模式。通过新建立的激光照射下探测器三维多物理数值模型得到的理论结果阐明了探测器主要部件失效的热力学机理。讨论了热力学结果对相关参数的依赖关系，为相关系统的开发和优化提供了科学依据。

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Mechanism on failure of cooled infrared detector illuminated by CW laser

Cooled infrared detectors with high sensitivity and high performance are widely applied in many fields. However, environmental disturbances such as intense light may cause a decline in their performance and even lead to permanent damage. In this study, the multi-physical behaviors and the performance degradation processes of typical cooled infrared detectors under the illumination of high-power density lasers are investigated to evaluate their survivability under extreme conditions. The experimental results reveal the electrical and thermomechanical responses of the detectors under the illumination of continuous-wave lasers, and the main thermomechanical failure modes that have not been revealed before are discovered. The theoretical results obtained through a newly established three-dimensional multi-physical numerical model of the detectors under laser illumination clarify the thermomechanical mechanism of the failure of the main components of the detectors. Moreover, the dependence of the thermomechanical results on relevant parameters is discussed, providing a scientific basis for the development and optimization of related systems.

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来源期刊

Optics and Laser Technology 物理-光学

CiteScore

8.50

自引率

10.00%

发文量

1060

审稿时长

3.4 months

期刊介绍： Optics & Laser Technology aims to provide a vehicle for the publication of a broad range of high quality research and review papers in those fields of scientific and engineering research appertaining to the development and application of the technology of optics and lasers. Papers describing original work in these areas are submitted to rigorous refereeing prior to acceptance for publication. The scope of Optics & Laser Technology encompasses, but is not restricted to, the following areas: •development in all types of lasers •developments in optoelectronic devices and photonics •developments in new photonics and optical concepts •developments in conventional optics, optical instruments and components •techniques of optical metrology, including interferometry and optical fibre sensors •LIDAR and other non-contact optical measurement techniques, including optical methods in heat and fluid flow •applications of lasers to materials processing, optical NDT display (including holography) and optical communication •research and development in the field of laser safety including studies of hazards resulting from the applications of lasers (laser safety, hazards of laser fume) •developments in optical computing and optical information processing •developments in new optical materials •developments in new optical characterization methods and techniques •developments in quantum optics •developments in light assisted micro and nanofabrication methods and techniques •developments in nanophotonics and biophotonics •developments in imaging processing and systems