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引用次数: 4
摘要
关于光传播的研究已经进行了一个多世纪。现在已经确定,任何具有正常或异常色散的物质都会产生慢光或快光。在本文中,我们演示了一种在ruby中快速切换慢光和快光的实验技术。该实验利用瞬态烧孔使红宝石的折射率发生剧烈变化,从而产生快慢光。瞬态烧孔是指在单频激光激发下,基态耗尽而产生高度密集的激发态。当激光读出时,这导致吸收光谱中出现一个空穴。我们观察到在B × c = 12 mT的外磁场中,延迟29 ns和超前-11 ns,对应的群速度分别为c/961和负群速度为-c /365。
Studies about light propagation have been undertaken for more than a century. It is now well established that any material that has normal or anomalous dispersion generates slow or fast light. In this paper, we demonstrate an experimental technique to rapidly switch between slow and fast light in ruby. The experiment utilizes transient holeburning to create drastic variation in refractive index of ruby to produce slow as well as fast light. Transient hole-burning involves the depletion of the ground state leading to a highly populated excited state by single frequency laser excitation. This leads to a hole in the absorption spectrum when readout by a laser. We observed a delay of 29 ns and advancement of -11 ns in an external magnetic field of B║c = 12 mT corresponding to a group velocity of c/961 and negative group velocity of –c/365 respectively.
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