The fiber laser source delivery by fiber, the delivery distance can be longer, the structure is compact.
激光器通过光缆实现激光距离传输、结构紧凑。
Using the fiber laser as light source, Stable performance, High photoelectric conversion efficiency, Low energy consumption.
采用光纤激光器作为光源,性能稳定,光电转换效率高,能耗低。
The significant progress of high power solid-state laser, fiber laser, super high efficiency diode source and relay mirror system are reviewed and discussed.
评论和讨论了高功率固体激光器、光纤激光器、超高效率二极管源和中继镜技术的重大进展。
The studies on an optical soliton source which is prepared using a gain -switched DFB laser, a F-P optical filter and an Er-doped fiber amplifier are reported.
报道了利用增益开关分布反馈半导体激光器、F-P光学滤波器及掺饵光纤放大器研制成光孤子源的研究工作。
A laser scanning confocal microscope that utilizes a single-mode optical fiber as both the source and the datection aperture is described.
本文探讨一种使用单模光纤同时作为点源与点探测器的激光共焦扫描显微系统。
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.
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。
The intensity modulation method is the oldest and simplest method for fiber-optic sensor, in which a homochromatic laser is used as system light source.
强度法是干涉型传感器采用的最古老、最简单的方法,它采用单色激光光源作为系统的光源。
Steady laser source and optical power meter are important fundamental equipments in many fiber system measure instruments that need empolder urgently.
稳定光源和光功率计正是诸多急待开发的光纤系统测量仪器中的常用的、重要的基础设备。
Wavelength switchable fiber laser is used widely in many fields, especially in the present optical source of WDM network router.
波长可开关的光纤激光器应用广泛,尤其是应用在目前高速WDM网络波长路由的光源。
Obviously, the incoherent fiber laser beam combination method is the ideal choice to realize airborne soft-killing laser source.
显然,非相干组束方法是实现机载软杀伤激光光源的理想选择。
The analysis has proved that fiber laser through coherent beam combination must be necessary for the future airborne soft killing high power laser source.
分析表明相干组束光纤激光器是未来机载软杀伤高功率光源的必然选择。
The optical fiber lasers are widely applied in optical communication, sensors, medicine, industry process, and they will become the most important optical source of laser in the future.
光纤激光器在光通信、传感技术、医疗、工业加工等领域有着广泛的应用,是未来非常重要的激光光源。
Feedback laser which generates narrow band light source for the Optical fiber gas sensor is too expensive to be used in engineering.
但由于产生窄带光源的反馈式激光器造价很高,因此没能够得到实际应用。
The system is based on Michelson interferometer. It USES a fiber laser with narrow linewidth as light source, and adopts homodyne demodulation with phase generated carrier scheme to restore signal.
该系统基于迈克尔逊干涉仪结构,以窄线宽光纤激光器为光源,采用相位载波零差解调方案实现信号的还原。
The system is based on Michelson interferometer. It USES a fiber laser with narrow linewidth as light source, and adopts homodyne demodulation with phase generated carrier scheme to restore signal.
该系统基于迈克尔逊干涉仪结构,以窄线宽光纤激光器为光源,采用相位载波零差解调方案实现信号的还原。
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