Splitting of whispering gallery modes by nanoparticles embedded in high Q microcavities

机译：嵌入高Q微腔中的纳米粒子对耳语画廊模式的分裂

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Effects of perturbations of the whispering gallery modes (WGMs) in cylindrical microcavity resonators by embedded nano size particles are studied by the finite difference time domain modeling. Apart from the foreseeable effects of spectral shift and broadening of WGM resonances, we also observed a key feature of splitting of the WGM peaks. This splitting occurs as a result of formation of symmetric and antisymmetric standing waves inside the cavity. It is demonstrated that magnitude of the splitting reaches several angstroms for 5 mum cavities with index 1.59 supporting moderately high quality (Qap10⁵) WGMs. We show that this effect allows developing biomolecular sensors based on measuring this splitting in porous cavities or in cavities with liquid cores.

机译：通过有限差分时域建模研究了纳米微颗粒嵌入的圆柱微腔谐振器中回音壁模式（WGM）的摄动影响。除了可预见的频谱偏移和WGM共振变宽的影响外，我们还观察到WGM峰分裂的关键特征。这种分裂是由于在腔体内形成对称和反对称驻波而发生的。结果表明，对于5个妈妈腔，裂隙的大小达到了几埃，折射率为1.59，支持中等质量（Qap10 ^{5 ）WGM。我们显示出这种效果允许基于测量在多孔腔或具有液体芯的腔中的这种分裂而开发生物分子传感器。}

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《International Conference on Transparent Optical Networks;ICTON '09》|2009年|1-4|共4页
会议地点 Azores(PT);Azores(PT)
作者
Hiremath K.R.; Astratov V.N.;
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Dept. of Math., Univ. of Karlsruhe, Karlsruhe, Germany;

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biosensors; finite difference time-domain analysis; micro-optomechanical devices; microcavities; micromechanical resonators; microsensors; nanoparticles; nanophotonics; nanosensors; optical sensors; whispering gallery modes; WGM resonance; biomolecular sensor; cylindrical microcavity resonator; finite difference time domain modeling; high Q microcavity; perturbation effect; porous cavity; size 5 mum; spectral shift; standing waves; optical confinement; optics at surfaces; particles scattering; resonators; sensors;

机译：生物传感器;时差有限域分析;微光机械设备;微腔;微机械谐振器;微传感器;纳米粒子;纳米光子学;纳米传感器;光学传感器;耳语画廊模式; WGM谐振;生物分子传感器;圆柱形微腔谐振器;时差有限域建模;高Q微腔;微扰效应;孔洞; 5毫米大小;光谱偏移;驻波;光学限制;表面光学;粒子散射;谐振器;传感器;
入库时间 2022-08-26 14:03:27

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专利

1. Mode splitting induced by an arbitrarily shaped Rayleigh scatterer in a whispering-gallery microcavity [J] . Yinglun Xu, Shui-Jing Tang, Xiao-Chong Yu, Physical Review, A . 2018,第6aPta2期

机译：由耳语画廊微腔中任意形状的Rayleigh散射体引起的模式分裂
2. Controlling slow and fast light and dynamic pulse-splitting with tunable optical gain in a whispering-gallery-mode microcavity [J] . M. Asano, S. K. OEzdemir, W. Chen, Applied Physics Letters . 2016,第18期

机译：在耳语画廊模式微腔中以可调节的光学增益控制慢速和快速光以及动态脉冲分裂
3. Whispering gallery mode coulometry of the nanoparticle-microcavity interaction in aqueous solution [J] . Lopez Jehovani R., Treasurer Eshan, Snyder Kaitlynn M., Applied Physics Letters . 2018,第5期

机译：水溶液中纳米颗粒-微腔相互作用的耳语库仑库仑法
4. Splitting of Whispering Gallery Modes by Nanoparticles Embedded in High Q Microcavities [C] . Kirankumar R. Hiremath, Vasily N. Astratov International Conference on Transparent Optical Networks . 2009

机译：纳米粒子嵌入在高Q微覆盖物中的耳语画廊模式
5. Nonlinear optics in ultra-high-Q whispering-gallery optical microcavities. [D] . Kippenberg, Tobias Jan August. 2004

机译：超高Q耳语画廊光学微腔中的非线性光学。
6. Whispering gallery modes in photoluminescence and Raman spectra of a spherical microcavity with CdTe quantum dots: anti-Stokes emission and interference effects [O] . Nikolai Gaponik, Yury P Rakovich, Matthias Gerlach, 2006

机译：具有CdTe量子点的球形微腔的光致发光和拉曼光谱中的耳语画廊模式：抗斯托克斯发射和干涉效应
7. Universal frequency engineering tool for microcavity nonlinear optics: multiple selective mode splitting of whispering-gallery resonances [O] . Xiyuan Lu, Ashutosh Rao, Gregory Moille, 2020

机译：用于微腔非线性光学元件的通用频率工程工具：耳语画廊共振的多种选择模式分裂
8. Non-spherical whispering-gallery-mode microcavity [R] . 2004

机译：非球形回音壁模式微腔

Splitting of whispering gallery modes by nanoparticles embedded in high Q microcavities

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