Svetlana N. Khonina, Nikolay L. Kazanskiy, Roman V. Skidanov, Muhammad A. Butt
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引用次数: 0
摘要
衍射光学元件(DOEs)代表了现代光学的革命性进步,在各种应用中具有无与伦比的多功能性和效率。衍射光学元件的意义在于,它们能够以复杂的图案操纵光波,从而实现传统折射光学元件无法实现的功能。DOE 广泛应用于激光光束整形、全息摄影、光通信和成像系统等领域。通过精确控制光的相位和振幅,DOE 可以产生复杂的光学结构,纠正像差,提高光学系统的性能。此外,DOE 体积小、重量轻,具有大规模生产的潜力,因此在设计紧凑高效的光学设备时不可或缺,适用于各种工业和科学应用。从提高激光系统的性能到实现创新的显示技术,DOE 不断推动着现代光学的进步,并有望在未来带来更多令人兴奋的可能性。本综述阐明了 DOE 的极端重要性,并探讨了其在当代的深远影响。
Advancements and Applications of Diffractive Optical Elements in Contemporary Optics: A Comprehensive Overview
Diffractive optical elements (DOEs) represent a revolutionary advancement in modern optics, offering unparalleled versatility and efficiency in various applications. Their significance lies in their ability to manipulate light waves with intricate patterns, enabling functionalities beyond what traditional refractive optics can achieve. DOEs find widespread use in fields such as laser beam shaping, holography, optical communications, and imaging systems. By precisely controlling the phase and amplitude of light, DOEs can generate complex optical structures, correct aberrations, and enhance the performance of optical systems. Moreover, their compact size, lightweight nature, and potential for mass production make them indispensable in designing compact and efficient optical devices for diverse industrial and scientific applications. From improving the performance of laser systems to enabling innovative display technologies, DOEs continue to drive advancements in modern optics, promising even more exciting possibilities in the future. In this review, the critical importance of DOEs is illuminated and explore their profound implications in the contemporary era.