| 1. | Study on photovoltaic effects of zn1 - xcdxse znse multiple quantum wells 多量子阱光伏效应研究 |
| 2. | 7 . the effect of the mqw on the hb - led is analyzed 全面分析多量子阱结构( mqw )在hb - led中的重要作用。 |
| 3. | Effects of the structure on resonant tunneling in multi - quantum - well systems 多量子阱系统结构变化对共振隧穿的影响 |
| 4. | Application of a sige multi - quantum well grown by uhv - cvd for thermophotovoltaic cells 多量子阱在热光电池领域的应用 |
| 5. | The coefficient transition in quantum well is larger than that in bulk material 3对led器件多量子阱有源区载流子输运与复合跃迁的分析。 |
| 6. | Optimized layers design for algan gan ingan symmetrical separate confinement heterojunction multi - quantum well laser diode 对称分别限制多量子阱激光器的优化设计 |
| 7. | 2 the energy structures of galnp / gaalinp bulk material , quantum well , multi - quantum wells and strained quantum well were theoretically analyzed and calculated 2利用k ? p能带计算的近似理论,分别分析和计算了gainp体材料,量子阱,多量子阱以及弹性应变下的能带结构。 |
| 8. | Using a simple variation - fitting method , the exciton binding energies of a sawtooth - shaped quantum well are calculated as a function of an electric field , and the explanation of the results is also given 采用一种变分拟合的简单方法计算了电场下锯齿型多量子阱的激子结合能,对计算结果给出了合理的解释 |
| 9. | So it is easy to regulate parameters to obtain results . in addition , circuit model of quantum cascade laser whose lattice matchs with inp has been structured and some valuable conclusions have been gotten . 对g . rossi提出的多量子阱激光器的电路模型进行了改造,考虑到模型的实用性,模型用多个分支电路来描述,以便在模拟时调整参数的设置相对容易,获得结果更快。 |
| 10. | Quantum capture is a complicated process and capture time computation and experiment test are provided . it is difficult to ascertain carrier ' s transportation and distribution in multiply quantum wels and tunneling time and heating emitting time computations are also provided . optical gain whose formula is complicated is a critical parameter and it is useful for structuring model to obtain a concise formula by means of experiment curve 详细说明了确定半导体激光器速率方程的一些重要参量的方法,如:载流子在三维sch区的输运行为对激光器的调制特性有较大影响;量子阱对载流子的捕获是一个复杂的过程,文中给出了量子捕获时间的计算方法以及实验证明;多量子阱中载流子输运与分布也是相当复杂的问题,文中给出了隧穿时间与热发射时间的计算方法;光增益是关键的参量,它的解析式相当繁琐,由实验曲线拟合其较为简明的经验式,对定模工作是有利的。 |