材料科学
激光阈值
光电子学
激光器
谐振器
收缩率
染料激光器
相(物质)
胆甾液晶
光学
光子学
光学腔
液晶
复合材料
有机化学
波长
物理
化学
作者
Yosuke Iwai,Ryosuke Iijima,Kaho Yamamoto,Takuya Akita,Yoshiaki Uchida,Norikazu Nishiyama
标识
DOI:10.1002/adom.201901363
摘要
Abstract Cholesteric liquid crystalline (CLC) emulsions are the easiest 3D omnidirectional laser resonators to fabricate. To exploit the full potential of CLC emulsions as distributed Bragg reflection (DBR) mode laser resonators, monodispersed water‐in‐CLC‐in‐water double emulsions (CLC microcapsules) have higher performance scalability than simple CLC droplets. If laser dyes are concentrated at the center of CLC microcapsules, emitted light from the dye is 3D confined. When water is squeezed from the inner phase of a CLC microcapsule comprising an aqueous laser dye solution by means of osmotic pressure difference from the outer phase, the DBR lasing threshold of the CLC microcapsule is reduced. The shrinkage of the inner droplet contributes not only the simple reduction of the cavity length but also the suppression of the optical loss to reduce the lasing threshold. The reduced optical loss is beneficial to realize various devices: optical manipulation, photonic cross communications, and biochemical, light, and temperature sensing. Their flexible photonic structures are suitable for emerging and future optical devices like wearable optical devices.
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