光纤耦合半导体激光器输出光场有许多特征:第一,光纤耦合半导体激光器的输出光具有单色性。
Fiber coupled laser diode output light field has many features: first, the fiber coupled laser diode output light is monochromatic.
Optotools公司同时将生产工业级光纤耦合高能半导体激光器。
Optotools, meanwhile, makes industrial fiber-coupled high-power semiconductor lasers.
本文主要讨论的问题是半导体激光器的光纤耦合。
This thesis focuses on the coupling between semiconductor laser and the optical fiber.
稳定光源系统研制过程中,对半导体激光器与光纤的耦合技术进行了研究分析,得到了一种简单实用的耦合方式。
In the research process of steady laser source system, analyzed thoroughly semiconductor laser and fiber coupling technology, and gained an applied and simple coupling mode.
对几种典型的半导体激光器与光纤的耦合特性进行分析,提出提高耦合效率所采用的微透镜光纤的结构。
Through analyzing the different typical coupling properties of semiconductor laser to optical fiber, the structures of lensed fiber is presented to enhance the coupling efficiency largely.
介绍了一种低反射高效率的尖锥端光纤和半导体激光器的耦合技术。
A coupling technique between a cone endface fiber and LD with the advantage of high efficiency and low reflectance is presented.
给出一种实现大发光面脉冲半导体激光器与标准通信光纤的高效耦合方案,实测耦合效率达21%。
A method for the high efficient power coupling of large emitting area pulsed semiconductor laser and standard communication fiber is given and its measured coupling efficiency is up to 21%.
对各种大功率半导体激光器光纤耦合技术进行了简介和比较,并对国内外同类产品进行了概述与展望。
Various kinds of high-power fiber coupling LD technologies are introduced and compared, and the future development products are given.
通常采用单个透镜,透镜组或者光纤微透镜的方式来改善半导体激光器的出射光束质量,提高耦合效率和容忍度。
The mostly used techniques to improve the coupling efficiency and alignment tolerance include using micro single lens, micro lens group and lensed fiber.
而半导体激光器与光纤的耦合,对半导体激光器的光束质量改善,有重要的意义。
The coupling of semiconductor laser and the optical fiber has vital significance to the semiconductor laser light beam quality improvement.
第二章讨论并归纳了半导体激光器光束特性,光纤传输特性以及影响耦合效率的因素。
The first chapter introduces the development, application of the semiconductor lasers and the relatively research of coupling between semiconductor lasers and optical fiber.
介绍了大功率半导体激光器二维阵列的光纤耦合技术,其中有整形耦合法、偏振合束法和波长合束法。
Fiber coupling technique for high-power diode laser 2D arrays was introduced, such as beam-shaping, polarization multiplexing and wavelength multiplexing.
提高半导体激光器与光纤的耦合方法有很多,但目前比较广泛采用的就是光纤透镜法。
A lot of methods are used to improve the ability of coupling between semiconductor laser and optic fiber, but lensed fiber is more extensively applied at present.
采用计算机控制技术、激光器调制技术、光纤耦合技术、微透镜聚焦技术,研究了半导体激光器的线阵。
Based on computer, laser modulation, fiber coupling and microlens focusing technology, fiber coupled laser diode array is researched.
对半导体激光器与单模光纤的耦合问题进行了研究。
The coupling of semi conductor laser and single mode fiber is studied in this paper.
本文主要讨论大功率宽发射域半导体激光器的多模光纤微透镜耦合。
The main topic in the thesis is the coupling the coupling between the high power single emitter broad area diode laser and micro lensed multimode fiber.
透镜光纤可以应用在光纤和半导体激光器的耦合,光纤和波导的耦合,传感器探测方面以及医疗和生物应用等等。
The lensed fiber can be used for fiber to LD coupling, fiber to waveguide coupling, detection in sensor, medical and biological applications and so on.
为提高单管半导体激光器的输出功率,提出了基于偏振复用技术对多个单管半导体激光器进行光纤耦合的方法。
To improve the output power of the single emitter diode laser, this paper proposed an optical fiber coupling method for single emitter diode lasers based on the polarization multiplexing.
为提高单管半导体激光器的输出功率,提出了基于偏振复用技术对多个单管半导体激光器进行光纤耦合的方法。
To improve the output power of the single emitter diode laser, this paper proposed an optical fiber coupling method for single emitter diode lasers based on the polarization multiplexing.
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