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Tunable parity-time symmetry vortex laser from a phase change material-based microcavity

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摘要 Traditional light sources cannot emit an electromagnetic(EM)field with an orbital angular momentum(OAM),limiting their applications in modern optics.The recent development of the OAM laser,mainly based on micro-and nanostructures,can satisfy the increasing requirements for on-chip photonics and information capacities.Nevertheless,the photonic structures have fixed parameters that prevent these OAM lasers from being dynamically tuned.Here,we propose tunable vortex lasing from a microring cavity integrated by a phase change material,Ge_(2)Sb_(2)Te_(5)(GST225).By modulating the complex refractive index to create an exceptional point(EP)to break the degeneracy of whispering gallery modes with opposite orientations,the microlaser working at the EP can impart an artificial angular momentum,thus emitting vortex beams with well-defined OAM.The grating scatter on the edge of the microring can provide efficient vertical radiation.The vortex laser wavelength from the GST225/InGaAsP dual-layered microring cavity can be dynamically tuned by switching the state of GST225 between amorphous and crystalline without changing the microring geometry.We construct an electric-thermal model to show the tuning range of operating wavelengths(EPs)from 1544.5 to 1565.9 nm in~25 ns.Our study on high-speed tunable PT-symmetry vortex lasers facilitates the next generation of integrated optoelectronic devices for optical computing and communications in both classical and quantum regions.
出处 《Microsystems & Nanoengineering》 SCIE EI CSCD 2023年第6期273-280,共8页 微系统与纳米工程(英文)
基金 The National Key Research and Development Program of China(2019YFA0709100.2020YFA0714504) the program of the National Natural Science Foundation of China(No.62105054)。
关键词 tuning SYMMETRY VORTEX
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