它可用与制作发光显示器件、高频滤波器、发光二极管、激光器、高速光开关等器件,在民用及军事领域都有着重要的用途。
It can be used to fabricate display devices, high frequency filters, emitting diode, lasers and high-speed optical switch. Therefore, it has great USES in both civil and military fields.
光互连与光交换系统的实现有赖于光开关,光探测器,激光器等光电子器件的进展。
The implement of optical interconnection and optical switching lies on the development of optical switch, photodetector (PD), laser etc.
从激光器的单模速率方程出发,利用数值方法研究了在不同的增益开关状态下,输出光脉冲的时域及频域特性。
With numerical calculation from single mode rate equation of semiconductor laser, the output pulse parameters in time and frequency domains are investigated under different gain switching conditions.
研究了不同调制速率下的增益开关半导体激光器的最佳工作状态。
The optimal operating condition of gain switched semiconductor laser with different modulation rate is studied in this paper.
该技术及其所制备的材料在光电转换、光开关和量子激光器等方面将获得广泛的应用。
Further developments are expected to have a potential applications in such as solar energy conversion, photo-switch, quantum well lasers etc.
重点分析了YAG激光器串并联混合谐振型逆变开关电源的结构和性能。
The paper mainly analysised the structure and features of series parallel resonant inverse switch power supply designed for pulse YAG laser.
大口径KDP电光开关是新一代高功率激光器多程放大系统的关键部件。
The large aperture KDP electro-optical switch is a key unit for the new high-power laser multi-pass amplification system.
作为光通讯以及光电取样检测系统的主要光源,增益开关半导体激光器产生的激光脉冲质量受到了极大的关注。
As the major source of optical communication and optic-electric sampling detection, the quality of optical pulse generated by Gain-switched semiconductor laser gets more and more attention.
报道了两个增益开关调制的法布里珀罗半导体激光器互注入锁定实验方案,可产生双波长可调谐光脉冲。
Amutual pulse injection-seeding scheme is developed to generate tunable dual-wavelength optical short pulses by the use of two gain-switched fabry-perot (F-P) semiconductor lasers.
研制了一种用于铜蒸气激光器的高稳定度同步延迟脉冲充电开关电源。
A highly steady synchronous pulse charging power supply for Copper Vapor Laser was developed.
本文提出了将磁脉冲压缩开关结合LC反转倍压电路应用于高重复率紧凑型准分子激光器的技术。
In this paper a magnetic pulse compressor (MPC) combined with LC inversion circuit applied in compact excimer laser has been put forward.
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。
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.
对设有内置式RF电路的分布反馈(DFB)半导体激光器在增益开关工作状态下出现反常光谱的原因进行了分析。
The abnormal spectrum phenomenon of distributed feedback (DFB) laser embedded with RF circuit generates under gain-switching operation was analyzed.
大功率TEACO2激光器系统产生的强电磁干扰主要来源于激光器主放电回路、脉冲火花开关和电源。
The strong electromagnetic interference generated in high power TEA CO2 laser system mainly comes from the main discharge circuit, pulse spark switch and power supply.
理论研究指出激光器的增益开关状态对输出光脉冲的啁啾分布有较大影响,从而影响了脉冲的压缩效果。
The achieved results indicate that the gain switching conditions greatly influence the chirp of optical pulses and the compression effect.
此外,还研究在掺铒光纤激光器中注入光实现波长可开关的光控机制并找到了抑制腔内激发波长的最优注入光波长。
Meanwhile, the effect of optical injection in erbium-doped fiber laser was investigated, and the optimized wavelength to control the lasing wavelength has been found.
首次提出了将磁脉冲压缩开关应用于钛宝石激光器中,由磁脉冲压缩开关和闸流管组合作为放电开关。
Magnetic pulse compressor (MPC) with thyratron as discharge switch used in ti: Sapphire laser was put forward for the first time.
本发明涉及激光医疗仪器。是由激光开关电源和YAG激光器构成的。
The medical apparatus is composed of laser switch power supply and YAG laser unit.
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。
Wavelength switchable fiber laser is used widely in many fields, especially in the present optical source of WDM network router.
近年来出现的高频开关电源技术和以可编程芯片为核心的控制技术也逐渐在激光器设计中得到应用。
Recently, adoption of the high frequency switch mode power supply and the processing controller based on the programmable chip are the trend of the development of laser technology.
反激光器装置可能会被用作一种光学开关。
为了隔离后向反射激光以及激光器多程放大系统中的寄生振荡,需要研制一种大口径的电光开关。
To isolate the retroreflections from the target and the self-oscillation in multipass amplifier system, the large-aperture electro-optical switch is required.
从而得到开关型半导体激光器的研究方向和难点。
And the direction and difficult in researching power supply for laser driver will be discussed.
和传统的EDF激光器相比,该激光器的开关更加的快速和灵活。
Compared with traditional EDF laser, such wavelength-switching method is much more flexible and faster.
实验结果表明,此激光器的单脉冲能量比单Q开关结构的非补偿腔输出能量高出74.7%。
The experimental results show that, in the same situation, the pulse energy of the improved laser is 74.7% higher than that of original one.
针对半导体激光器(LD)的驱动特性,设计了一种基于开关电源的LD驱动电路。
A laser Diode (LD) driver based on switching power is proposed according to the LD driver characteristics.
插上像笔记本一样的电源,连接激光器和激光器驱动,启动开关并按下“ON”按键。
Plug in the included laptop-like power supply, connect laser and laser driver, activate the key switch and press the "on" button.
插上像笔记本一样的电源,连接激光器和激光器驱动,启动开关并按下“ON”按键。
Plug in the included laptop-like power supply, connect laser and laser driver, activate the key switch and press the "on" button.
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