Ming-huang Sang scite author profile

We present a novel and simple optical structure, i.e., the symmetrical metal-cladding waveguide, in which a polymer layer is added into the guiding layer, for sensitive detection of chemical vapor by using the enhanced Goos-Hänchen (GH) shift (nearly a millimeter scale). Owing to the high sensitivity of the excited ultrahigh-order modes, the vapor-induced effect (swelling effect and refractive index change) in the polymer layer will lead to a dramatic variation of the GH shift. The detected GH shift signal is irrelevant to the power fluctuation of the incident light. The detection limit of 9.5 ppm for toluene and 28.5 ppm for benzene has been achieved.

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Bidirectional Quantum Controlled Teleportation by using a Seven-qubit Entangled State

Sang

2015

Int J Theor Phys

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Asymmetric Bidirectional Controlled Teleportation by Using Six-qubit Cluster State

Nie

et al. 2016

Int J Theor Phys

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Nonlinear-polarization-rotation based multiwavelength erbium-doped fiber lasers with highly nonlinear fiber

Zhang

Sang

et al. 2011

Laser Phys.

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Quantum state sharing of an arbitrary three-qubit state by using four sets of W-class states

Nie

Liu

et al. 2011

Optics Communications

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Multiuser Time-Energy Entanglement Swapping Based on Dense Wavelength Division Multiplexed and Sum-Frequency Generation

Huang

Xiang

et al. 2019

Phys. Rev. Lett.

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Ming-huang Sang

Bidirectional controlled quantum teleportation and secure direct communication using five-qubit entangled state

Bidirectional Quantum Teleportation by Using Five-qubit Cluster State

Detection of chemical vapor with high sensitivity by using the symmetrical metal-cladding waveguide-enhanced Goos-Hänchen shift

Bidirectional Quantum Controlled Teleportation by using a Seven-qubit Entangled State

Asymmetric Bidirectional Controlled Teleportation by Using Six-qubit Cluster State

Nonlinear-polarization-rotation based multiwavelength erbium-doped fiber lasers with highly nonlinear fiber

Quantum state sharing of an arbitrary three-qubit state by using four sets of W-class states

Multiuser Time-Energy Entanglement Swapping Based on Dense Wavelength Division Multiplexed and Sum-Frequency Generation

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