通过操纵柔性衬底上的等离子体耦合强度可调谐随机激光发射

T. Yeh, Chun-Yang Chou, Zu-Po Yang, Nguyen Thi Bich Hanh, Y. Yao, M. Tsai, H. Kuo, Ya-Ju Lee
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引用次数: 0

摘要

随机激光器是一种独特的系统,其中一组无序散射体分布在增益介质上,以维持刺激激光作用所需的多散射光反馈。由于没有明确定义的谐振腔或光学元件的刚性对准,因此难以控制随机激光发射。在这项研究中,我们通过实验证明了在聚对苯二甲酸乙二醇酯(PET)衬底上制造的柔性随机激光器具有高度的激光发射可调性。随着施加在PET衬底上的弯曲应变的增加,随机激光波长呈单片蓝移,当施加在PET衬底上的弯曲应变为50%时,激光波长的最大位移达到了~ 15 nm。这种观察是高度可重复和可逆的,它验证了我们能够通过简单地弯曲柔性衬底来控制激光波长。研究结果表明,柔性光电器件在可穿戴设备、超薄显示器和健康传感器等领域的应用取得了巨大进展。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Tunable random lasing emissions by manipulating plasmonic coupling strengths on flexible substrates
A random laser is a unique system in which an assembly of disordered scatters is distributed all over the gain medium to sustain the required optical feedbacks by multiple scatterings for the stimulation of lasing action. Due to the absence of well-defined resonance cavity or rigid alignment of optical elements, it is hence difficult to control the random lasing emissions. In this study, we experimentally demonstrated a flexible random laser fabricated on the polyethylene terephthalate (PET) substrate with a high degree of tunability in lasing emissions. Random lasing wavelength is blue-shifted monolithically with the increasing of bending strains exerted on the PET substrate, and the maximum shift of lasing wavelength of ∼15 nm was achieved as a 50% bending strain is exerted on the PET substrate. Such observation is highly repeatable and reversible, and it validates that we are able to control the lasing wavelengths by simply bending the flexible substrate. The result herein shows a great advance for the applications of flexible optoelectronic devices, including wearable devices, ultrathin display, and health sensors.
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