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Recent Progress in Gain Materials for Microlasers and Modern Digital Approaches for Biophotonics: From Dyes to Semiconductors. [PDF]
Micromachines (Basel)Calles-Arriaga CA +8 more
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Metallic photoluminescence of plasmonic nanoparticles in both weak and strong excitation regimes. [PDF]
NanophotonicsFang X, Wang J, Qiu M.
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Ultra-high-sensitive plasmonic sensor based on asymmetric hexagonal nano-ring resonator for cancer detection. [PDF]
HeliyonShafagh SG, Kaatuzian H.
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Metasurfaces with Multipolar Resonances and Enhanced Light-Matter Interaction. [PDF]
Nanomaterials (Basel)Arup EM +4 more
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Fundamental Formulation for Plasmonic Nanolasers
IEEE Journal of Quantum Electronics, 2009We develop a fundamental formulation of plasmonic nanolasers from Fermi's Golden rule, taking into account the inhomogeneity and dispersion of the cavity media. We demonstrate that the electromagnetic energy confinement factor and the corresponding effective volume lead to a more consistent formulation for the rate equations of nanolasers.
Shu-Wei Chang, Shun Lien Chuang
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High-Yield Plasmonic Nanolasers with Superior Stability for Sensing in Aqueous Solution
ACS Photonics, 2017 Plasmonic nanolasers with strong field confinement beyond the diffraction limit are an emergent tool for various applications, ranging from on-chip optical interconnectors to biomedical sensing and imaging.
Suo Wang, Xing-Yuan Wang, Lun Dai
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High Performance Plasmonic Nanolasers with External Quantum Efficiency Exceeding 10%
Nano Letters, 2018 Plasmonic nanolasers break the diffraction limit for an optical oscillator, which brings new capabilities for various applications ranging from on-chip optical interconnector to biomedical sensing and imaging. However, the inevitably accompanied metallic
Suo Wang, Ren-Min Ma
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Scaling Laws for Perovskite Nanolasers With Photonic and Hybrid Plasmonic Modes
Advanced Optical Materials, 2022 Zhen-Ting Huang, Heng Li, Yizhi Zhu
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ACS Nano, 2018 Hybrid plasmonic nanolasers are intensively studied due to their nanoscale mode confinement and potentials in highly integrated photonic and quantum devices.
Wenzhao Sun, Yubin Fan, Yisheng Gao
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