H. Sun, P. Bhattacharya, J. Singh, L. Davis, S. Sethi
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引用次数: 0
摘要
只提供摘要形式。研究了gaas基激光器的隧穿注入机理。初步采用分子束外延生长的gaas基器件具有80 AA In/sub 0.10/Ga/sub 0.90/As有源单量子阱和AlAs隧穿势垒。在特定的驱动电流下,这些激光器在小信号调制响应中显示出特征峰值,这被认为与隧道效应有关。工作原理有望成为高注入水平的“冷”激光,消除广泛的热载流子分布,因此预计俄歇复合和啁啾将被抑制,特别是在基于inp的设备中。此外,将载波隧穿到有源阱中可以保证非常大的调制带宽。峰值增益将确保更高的模式选择性。>
Summary form only given. A tunneling injection mechanism in a GaAs-based laser is demonstrated. The preliminary GaAs-based devices, grown by molecular beam epitaxy, have an 80 AA In/sub 0.10/Ga/sub 0.90/As active single quantum well and AlAs tunneling barriers. These lasers show a characteristic peaking in the small signal modulation response at a particular drive current, which is believed to be related to the tunneling. The principle of operation promises to be a 'cold' laser at high injection levels, eliminating a broad thermal carrier distribution, and therefore Auger recombination and chirp are expected to be suppressed, particularly in InP-based devices. In addition, tunneling of carriers into the active well will ensure very large modulation bandwidths. A peaked gain will ensure higher mode selectivity. >
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