研究了由三个非对称光纤布拉格光栅(FBG)构成的双腔结构的双波长透射特性。三个FBG之间的周期(或布拉格波长)不同,导致它们的禁带部分重叠,形成两个重叠区域。通过调节FBG的周期来控制每个重叠区域的大小,使每个重叠区域只允许一个波长通过,从而实现双波长透射。如果在双透射情况下增加腔长,则透射带宽会被压窄,从而获得超窄带宽。此外,两个透射波长之间的间隔可通过改变FBG的周期而改变。基于该全光纤结构的设计思路,可以将其进一步推广以实现等间隔甚至是不等间隔的多波长透射。该结构在双波长或多波长光纤激光器领域具有潜在应用价值。
光纤光学 光纤布拉格光栅 双透射 双腔结构 光纤激光器
Author Affiliations
Abstract
College of Physics, East China University of Science and Technology, Shanghai 200237, China
A scheme is proposed for tunable all-optical switching based on the double-dark states in a five-level atom-cavity system. In the scheme, the output signal light of the reflection and the transmission channels can be switched on or off by manipulating the control field. When the control light is coupled to the atom-cavity system, the input signal light is reflected by the cavity. Thus, there is no direct coupling between the control light and the signal light. Furthermore, the position of the double-dark states can be changed by adjusting the coherent field, and, thus, the switching in our scheme is tunable. By presenting the numerical calculations of the switching efficiency, we show that this type of the interaction-free all-optical switching can be realized with high switching efficiency.
270.1670 Coherent optical effects 230.1150 All-optical devices Chinese Optics Letters
2017, 15(9): 092702
Author Affiliations
Abstract
State Key Laboratory of High Field Laser Physics, Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, Shanghai 201800, China
We demonstrate that a finite number of nano-slits can realize beam splitting and focusing of light by coating the metallic film surfaces with nonlinear Kerr medium. The numerical simulation shows that the beam splitting and focusing can be controlled by the incident light intensity. The splitting angle is quasi-periodically modulated by the incident light intensity, and the focusing length of forward propagating transmitted light decreases as the incident light intensity increases. These effects are explained by the surface plasmon polariton Bloch modes and self-focusing theory.
光束分裂 聚焦 克尔介质 表面等离子体 260.3910 Metal optics 240.6680 Surface plasmons 190.3270 Kerr effect 160.4236 Nanomaterials Chinese Optics Letters
2010, 8(3): 335
