1) quantum laser
量子激光
2) quantum-beat laser
量子拍激光
3) quantum well laser
量子阱激光器
1.
This paper deduces the formula of the multi—quantum well laser s optimal well numbers.
推导了量子阱激光器(也称为低阈值量子阱激光器)的最佳阱数的计算公式,经与实验值相比较,比较吻合,并且用PSpice模拟了阈值电流与腔长的关系。
2.
The cross-saturation characteristics of GaN quantum well lasers are theoretically calculated and analyzed based on the analyses of the energy band structure and the transition matrix elements of GaN.
通过分析GaN能带结构和跃迁矩阵元,对GaN基量子阱激光器的交叉饱和特性作了理论上的计算与分析。
3.
In this paper,the current modulation characteristics of a high power GaAs/GaAlAs quantum well laser in low frequencies(100Hz~20KHz)were experimentally investigaed in the first time.
本文首次对高功率GaAs/GaAlAs量子阱激光器 ( 80 8nm)的低频 ( 10 0Hz~ 2 0KHz)电流调制特性进行了实验研究。
4) SCH quantum well laser
SCH量子阱激光器
1.
Study on the chaotic synchronization communication of different structure SCH quantum well lasers;
SCH量子阱激光器的混沌同步通信研究
5) quantum cascade laser
量子级联激光器
1.
Energy band design for Si/SiGe quantum cascade laser;
Si/SiGe量子级联激光器的能带设计
2.
Simulation of waveguide of terahertz quantum cascade laser;
太赫兹量子级联激光器波导数值模拟
3.
Interface phonons in the active core of a quantum cascade laser;
量子级联激光器有源核中界面声子的特性研究
6) multi-quantum well laser
多量子阱激光器
1.
At the same time,a multi-quantum well laser is used as laser LED,which makes the carrier frequency have a wide range(0~20 MHz),and so enhances the frequency bandwidth and dynamical range of PGC demodulation.
采用多量子阱激光器作为光源,使载波信号工作在较高的频率范围(0~20 MHz),从而提高了系统带宽和动态范围。
补充资料:单量子阱(见量子阱)
单量子阱(见量子阱)
single quantum well
单且子阱sillgle quantum well见量子阱。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条