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基于单微带的电泵浦法布里-珀罗微激光器的连续波操作。

Continuous-wave operation of an electrically pumped single microribbon based Fabry-Perot microlaser.

作者信息

Tang Kai, Jiang Mingming, Wan Peng, Kan Caixia

出版信息

Opt Express. 2021 Jan 18;29(2):983-995. doi: 10.1364/OE.412475.

Abstract

Fabry-Perot (FP) mode microlasers have been popularized and applied widely in on-chip coherent light sources because of the unique advantages of directional output emission. In this work, a heterojunction light-emitting diode (LED) made of a Ga-doped ZnO (ZnO:Ga) microribbon and p-GaAs template is fabricated. And its electroluminescence characteristics of strong coupling of exciton-photon and polariton lasing, in the blue-violet spectrum, were demonstrated under continuous-wave operation of an electrical injection. In the device structure, a single microribbon with a rectangular-shaped cross section can achieve the FP-mode lasing action by the optical oscillation between the two lateral sides of the microcrystals in the ultraviolet spectrum. As the reverse-current is below the threshold value, the device can have radiative polaritonic lighting directly from bilateral sides of the microribbon, yielding strong coupling between excitons and FP-mode microresonator. And the exciton-polariton coupling strengths characterized by a Rabi splitting energy were extracted to be 500 meV. Further, when the input current increased more than a certain value, strong laser illuminating developed as two sharp peaks at the lower energy shoulder of the spontaneous emission peak, and these oscillating modes can dominate the waveguide EL spectra. The experimental results can provide us with further unambiguous evidence that the lasing is originated from the polariton resonances for the microribbon with strong exciton-polariton coupling. Since single microribbon based optical FP-mode microresonators do not require additional feedback mirrors, their compact size and resulting low thresholds make them a powerful candidate to construct on-chip coherent light sources for future integrated nanophotonic and optoelectronic circuitry.

摘要

法布里-珀罗(FP)模式微激光器因其定向输出发射的独特优势而在片上相干光源中得到广泛应用。在这项工作中,制备了一种由Ga掺杂的ZnO(ZnO:Ga)微带和p-GaAs模板制成的异质结发光二极管(LED)。在电注入的连续波操作下,展示了其在蓝紫光光谱中激子-光子强耦合和极化激元激光发射的电致发光特性。在器件结构中,具有矩形横截面的单个微带可以通过微晶两侧在紫外光谱中的光学振荡实现FP模式激光发射。当反向电流低于阈值时,该器件可以直接从微带的两侧产生辐射极化子发光,从而在激子和FP模式微谐振器之间产生强耦合。通过拉比分裂能量表征的激子-极化子耦合强度被提取为500毫电子伏特。此外,当输入电流增加超过一定值时,在自发发射峰的低能肩部出现两个尖锐峰,形成强激光发射,并且这些振荡模式可以主导波导电致发光光谱。实验结果可以为我们提供进一步明确的证据,证明激光发射源于具有强激子-极化子耦合的微带的极化子共振。由于基于单个微带的光学FP模式微谐振器不需要额外的反馈镜,其紧凑的尺寸和由此产生的低阈值使其成为构建未来集成纳米光子和光电子电路片上相干光源的有力候选者。

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