量子态与力学异质结构的耦合

TRANSDUCERS 2009 - 2009 International Solid-State Sensors, Actuators and Microsystems Conference Pub Date : 2009-06-21 DOI:10.1109/SENSOR.2009.5285457

J. D. Makowski, B. D. Anderson, W. Chan, M. Saarinen, C. Palmstrøm, J. Talghader

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引用次数: 2

摘要

机械定位用于控制半导体异质结构的光发射波长。在我们的工作中，包含InGaAs表面阱的SixN/InP悬臂梁坍塌在另一个InGaAs量子阱上。阱之间的间距沿着坍塌的悬臂梁变化，改变了异质结构之间的耦合，从而改变了电子态。从本质上讲，我们是通过悬臂的机械弯曲来改变带隙。这与通过耦合光学腔和可调谐反射镜来控制光子态非常相似。在这里，我们报告了在两个耦合的200 Å表面井的光致发光测量中高达22 nm的波长位移。相关理论表明，机械量子耦合使带间或子带间器件具有前所未有的增益或吸收光谱调谐范围。

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Coupling of quantum states with mechanical heterostructures

Mechanical positioning is used to control the wavelength of light emission from semiconductor heterostructures. In our work, a SixN/InP cantilever containing an InGaAs surface well collapses over another InGaAs quantum well. The spacing between the wells varies along the collapsed cantilever, changing the coupling between heterostructures and thus the electron states. In an essence, we are altering the bandgap by the mechanical bending of the cantilever. This is very much similar to the control of photon states by coupling optical cavities with tunable mirrors. Here we report a wavelength shift of up to 22 nm in photoluminescence measurements of two coupled 200 Å surface wells. Associated theory shows that mechanical quantum coupling enables interband or intersubband devices with unprecedented spectral tuning ranges for gain or absorption.

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TRANSDUCERS 2009 - 2009 International Solid-State Sensors, Actuators and Microsystems Conference

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