| 1. | If an optical cavity is somehow disrupted, as for example by the displacement or removal of one mirrors, the laser action generally ceases .
如果光学腔由于某种原因被破坏,例如挪动或取走一个镜片,激光通常就停止了。 |
| 2. | Chapter two introduces the theory of optical cavity decay time method
第二章介绍了时间衰减法测量无源谐振腔总损耗的原理。 |
| 3. | Large optical cavity
大光学共振腔 |
| 4. | Dielectric waveguides / photonic crystals : basics of optical cavities and waveguides . photonic crystal concepts , structures , issues
光学腔与波导之基础。光子晶体之概念、结构与问题。 |
| 5. | Dielectric waveguides / photonic crystals : basics of optical cavities and waveguides . photonic crystal concepts , structures , issues
16介电材料波导/光子晶体:光学腔与波导之基础。光子晶体之概念、结构与问题。 |
| 6. | Even a single atom now can be controlled by an optical dipole trap and singe atom and single - photon strong interaction and controlling each other have been demonstrated inside an optical cavity , although trapping a single atom for a long time is still a challenge
随着冷原子技术的发展,人们不但可以将原子冷却到绝对零度附近,而且可以通过光学偶极俘获实现单个原子的操控。虽然在腔内长时间俘获单原子仍是一个挑战,但冷原子技术已使单原子与单光子相互作用的研究成为现实。 |
| 7. | With the development of laser techniques , the optical cavity has played an important role on monitoring laser mode , measurement and narrowing of laser linewidth , laser mode cleaner , laser frequency stabilization , optical spectrum and cavity - qed etc . , due to its advantages of ultra - low losses , high finesse and narrow linewidth
随着激光技术的发展,谐振腔由于其腔内损耗小、精细度高、线宽窄等特点,使得其在监视激光模式、测量并压窄激光线宽、激光模式清洁、激光稳频、激光光谱学、腔量子电动力学等方面起到重要的作用。 |
| 8. | In this thesis , it is mostly showed about the setup and the losses measurement of high - finesse optical cavity , including its application to measuring the linewidth of semiconductor laser . for the example , it is used to measure the linewidth of dbr laser and research the rules of linewidth influence of injected noise on the semiconductor laser
本文主要介绍了高精细度腔的建立及其低损耗的测量,还介绍了其在半导体激光器线宽测量方面的应用,例如测量dbr激光器线宽和研究噪声对半导体激光器线宽的影响规律。 |
