| 1. | The probability of obtaining a lattice atom displacement via the phonon kick process is evidently small .
很明显,通过声子反冲过程而取得晶格原子位移的几率是不大的。 |
| 2. | Exciton - phonon coupling of nn3 center in heavily nitrogen doped gap
3束缚激子与声子的耦合 |
| 3. | Review of phononic crystals based control of noise and vibration
基于振动与噪声控制的声子晶体研究进展 |
| 4. | Research progress of pgec and low - dimension thermoelectric material
声子玻璃电子晶体和低维热电材料的研究进展 |
| 5. | The vibration property of one dimension thin rod phnoonic crystal is studied
摘要研究了一维细长杆声子晶体振动特性。 |
| 6. | Consider how the hawking - like phonons look when viewed backward in time
考虑时间轴倒转的情况下,类霍金声子看起来会怎样。 |
| 7. | Influence of velocity of polaron on mean number of phonons of bound magnetopolaron
极化子速度对束缚磁极化子的声子平均数的影响 |
| 8. | Band gaps and application of one - dimensional phononic crystals consisted of granite and nitrile rubber
丁腈橡胶声子晶体的带隙及其应用 |
| 9. | The phonons swim downstream toward the horizon , their wavelengths decreasing all the while
声子往下游的视界游去,而它们的波长则一直变短。 |
| 10. | Calculation of the band structures in two - dimensional phononic crystals consisting of elliptic cylinders
二维椭圆柱散射体声子晶体带结构的计算 |
