De-Kui Qing scite author profile

The Goos-Hänchen shift caused by total internal reflection at the interface between two media is analyzed. For two media of the same handedness the Goos-Hänchen phase shift opposes the phase variation associated with propagation through the incident medium. The Goos-Hänchen lateral shift is in the same direction as the horizontal component of the incident energy flux. Conversely, for two media of opposite handedness the Goos-Hänchen phase shift reinforces the phase variation associated with propagation through the incident medium. The lateral shift is in the opposite direction of the horizontal component of the incident energy flux.

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Photorefractive detection of tissue optical and mechanical properties by ultrasound modulated optical tomography

Zhang

Hemmer

et al. 2007

Opt. Lett.

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optical tomography is a developing hybrid imaging modality that combines high optical contrast and good ultrasonic resolution for imaging soft biological tissue. We developed a photorefractive-crystal-based, time-resolved detection scheme with the use of a millisecond long ultrasound burst to image both the optical and the mechanical properties of biological tissues, with improved detection efficiency of ultrasound-tagged photons.

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Opposite Goos–Hänchen shifts for transverse-electric and transverse-magnetic beams at the interface associated with single-negative materials

Huang

Zhang

et al. 2005

Opt. Lett.

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Goos-Hänchen shifts are investigated when total reflection occurs at the interfaces associated with single-negative materials (SNMs). A general rule for judging the direction of the Goos-Hänchen lateral shift concerning lossless media is obtained: Whether the lateral shift is positive or negative depends on the sign of micro1micro2 for TE-polarized incident beams and epsilon1epsilon2 for TM-polarized incident beams. It was theoretically demonstrated that, at the interface associated with SNMs, TE- and TM-polarized incident beams experience opposite Goos-Hänchen lateral shifts. An effective and simple approach to discriminating epsilon-negative material and micro-negative material is proposed.

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Enhancement of electromagnetic fields with subwavelength microwave resonators

et al. 2005

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De-Kui Qing

Goos–Hänchen shifts at the interfaces between left- and right-handed media

Photorefractive detection of tissue optical and mechanical properties by ultrasound modulated optical tomography

Opposite Goos–Hänchen shifts for transverse-electric and transverse-magnetic beams at the interface associated with single-negative materials

Enhancement of electromagnetic fields with subwavelength microwave resonators

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