Revisiting physical mechanism of longitudinal photonic spin splitting and Goos-Hänchen shift
The intrinsic connection between the transverse photonic spin Hall effect (PSHE) and the Imbert–Fedorov shift has been well characterized. However, physical insights into the longitudinal photonic spin splitting associated with the Goos-Hänchen (GH ...
Weiming Zhen +3 more
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Hemispherical acoustic Luneburg lens with the acoustic Goos-Hänchen shift and Fresnel filtering effect. [PDF]
Park CM, Yim GS, Cho K, Lee SH.
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Goos–Hänchen shifts on spin representation
We analyze the Goos–Hänchen (GH) shift and longitudinal spin splitting (LSS) at a planar interface between two optical media in the spin representation.
Ze Chen +4 more
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Goos-Hänchen shift from an anisotropic metamaterial slab
Yu Guan-Xia, Fang Yun-Tuan, Cui Tie
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Special Issue in "Nanomaterials and Their Applications in Sensing and Biosensing". [PDF]
Zaidi SA, Shahzad F, Abbas A.
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Goos-Hänchen shift of partially coherent light fields in epsilon-near-zero metamaterials. [PDF]
Ziauddin, Chuang YL, Qamar S, Lee RK.
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High-Sensitivity Goos-Hänchen Shift Sensing via Surface Plasmon Resonance and Beam Displacement Amplification. [PDF]
Li Q, Xu E, Zhang X, Tian J, Liu Z.
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Half-quantized helical hinge currents in axion insulators. [PDF]
Gong M, Liu H, Jiang H, Chen CZ, Xie XC.
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Transverse shifts and time delays of spatiotemporal vortex pulses reflected and refracted at a planar interface. [PDF]
Mazanov M +4 more
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Strong resonance response with ultrahigh quality factor in grating-multilayer systems based on quasi-bound states in the continuum. [PDF]
Ruan Y, Li Y, Hu Z, Wang J, Wang Y.
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