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Cited by 1,371 publications
(1,208 citation statements)
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References 142 publications
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“…1 Modern plasmonics, which embraces various phenomena associated with excitation, propagation and scattering of SPPs, became ubiquitous in extremely diverse areas, ranging from biochemical sensing, 2 quantum optics 3 and information communication technologies 4 to sustained energy sources. 5 SPPs are essentially transverse magnetic waves with the magnetic field oriented perpendicular to the propagation plane, a very important feature that dictates the polarization sensitivity of the SPP excitation efficiency by free propagating radiation.…”
Section: Introductionmentioning
confidence: 99%
“…1 Modern plasmonics, which embraces various phenomena associated with excitation, propagation and scattering of SPPs, became ubiquitous in extremely diverse areas, ranging from biochemical sensing, 2 quantum optics 3 and information communication technologies 4 to sustained energy sources. 5 SPPs are essentially transverse magnetic waves with the magnetic field oriented perpendicular to the propagation plane, a very important feature that dictates the polarization sensitivity of the SPP excitation efficiency by free propagating radiation.…”
Section: Introductionmentioning
confidence: 99%
“…11,22 In the ultimate limit of a single emitter, lasing in the strong light-matter-coupling regime has also been recently achieved. 10,23,24 Furthermore, a new research field has emerged from the use of plasmonic effects, 25 which can lead to systems with drastically reduced optical mode volume and increased light-matter coupling efficiency compared to purely photonic systems. These prospects have stimulated work on plasmonic lasers, 16,26 culminating in the recent demonstration of a self-assembled quantum-dot (QD) transition coupled to a plasmonic resonance.…”
mentioning
confidence: 99%
“…The unit area J( ) has a persistent weakcoupling limit, and the Weisskopf-Wigner approximation rule and/or the Markovian master equation is equal to the dark photon activation. Consequently, all HDP photon activations will have dynamic dark photon state modes (1D, 2D, 3D) in the semiconductor cell, which can be expressed as described in Table 3 [24,38].…”
Section: Dark Photon Transformationmentioning
confidence: 99%