塔尔博特-劳装置：重新评估

Frontiers in sensors Pub Date : 2024-01-25 DOI:10.3389/fsens.2023.1328490

C. M. Gómez-Sarabia, Jorge Ojeda-Castañeda

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引用次数: 0

摘要

塔尔博特效应和劳氏效应已被有效地应用于光学干涉测量、新型 X 射线装置的设计以及物质波有用仪器的制造。在时间光学中，上述现象在重建沿着色散介质传播的调制光学短脉冲时发挥着重要作用。我们注意到，如果采用变焦透镜这种非机械技术，塔尔博特-劳装置可以进行空间频率调整。因此，我们确定了塔尔博特-劳传感器与人工肌肉材料开发之间的相关联系，以生成可调透镜。我们的讨论将看似不相关的话题统一起来，为塔尔博特-劳效应的应用提供了一个全球范围。

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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Talbot-Lau devices: a reappraisal

The Talbot effect and the Lau effect have been usefully applied in optical interferometry, and for designing novel X-ray devices, as well as for implementing useful instruments for matter waves. In temporal optics, the above phenomena play a significant role for reconstructing modulated, optical short pulses that travel along a dispersive medium. We note that the Talbot-Lau devices can be spatial frequency tuned if one employs varifocal lenses as a nonmechanical technique. Thus, we identify a pertinent link between the Talbot-Lau sensors and the development of artificial muscle materials, for generating tunable lenses. Our discussion unifies seemly unrelated topics, for providing a global scope on the applications of the Talbot-Lau effect.

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Frontiers in sensors

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