Exploring transient modification of hyperbolic metamaterials using InAsSb-based semiconductor

H. Haugan, D. Bas, Augustine Urbas, A. Neal, K. Eyink
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Abstract

Quantum photonics opens doors for applications in sensing, data transfer, and quantum computing. Application areas in many of these technologies require in some manner tunable single photon sources. Hyperbolic metamaterials, composed of metallic building blocks embedded in dielectric media control emission lifetime by modifying the photon density of states. However, no previous efforts have explored the transient modification of metamaterials to modulate emission. Antimony-based semiconductor hyperbolic metamaterials (SHMMs) offer a route to modulation of these resonances at the mid-infrared (IR) wavelength range, which would modulate emission. In this work, we demonstrate the ability to create an ultrafast hyperbolic momentum state in metallic InAsSb/dielectric GaSb stacks and explore the possibility of transient modification of metamaterials by controlling the optical properties of photon emission. If successful, this study will establish a new platform for deterministic single photon emission that can be integrable into opto-electronic platforms and dramatically advance optical quantum technologies. Properly engineered quantum well structures are grown by molecular beam epitaxy with Si-doping in order to convert the InAsSb layers from dielectric to metallic at IR frequencies. The carrier excitation scheme of the engineered hyperbolic stacks is investigated in a variety of excitation levels using pump–probe measurements. The photo-excited carriers in the structure with a metal fraction of ∼0.5 show a polarization dependent reflectivity change, which indicates a transient hyperbolic metamaterial state in the heterostructure induced by the pump laser.
探索利用inassb基半导体对双曲型超材料进行瞬态修饰
量子光子学为传感、数据传输和量子计算的应用打开了大门。许多这些技术的应用领域都需要以某种方式可调的单光子源。由金属构件组成的双曲超材料嵌入介质中,通过改变态的光子密度来控制发射寿命。然而,以前没有研究过对超材料进行瞬态修饰来调节发射。锑基半导体双曲超材料(shmm)提供了在中红外(IR)波长范围内调制这些共振的途径,这将调制发射。在这项工作中,我们展示了在金属InAsSb/介电GaSb堆叠中创建超快双曲动量态的能力,并探索了通过控制光子发射的光学特性来瞬态修饰超材料的可能性。如果成功,该研究将建立一个确定性单光子发射的新平台,该平台可以集成到光电平台中,并显着推进光量子技术。利用分子束外延和硅掺杂的方法,在红外波段将InAsSb层从介电层转变为金属层,形成了合理的量子阱结构。利用泵-探针测量方法研究了工程双曲堆在不同激励水平下的载流子激励方案。金属分数为~ 0.5的光激发载流子结构的反射率随偏振变化,表明泵浦激光诱导异质结构的瞬态双曲超材料状态。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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