Chao-Hsien Kuo scite author profile

Here the fluctuation properties of acoustic localization in bubbly water is explored. We show that the strong localization can occur in such a system for a certain frequency range and sufficient filling fractions of air-bubbles. Two fluctuating quantities are considered, that is, the fluctuation of transmission and the fluctuation of the phase of acoustic wave fields. When localization occurs, these fluctuations tend to vanish, a feature able to uniquely identify the phenomenon of wave localization.Comment: 10 pages, 4 figure

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Negative-refraction-like behavior revealed by arrays of dielectric cylinders

Kuo

2004

Phys. Rev. E

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We investigate the electromagnetic propagation in two-dimensional photonic crystals, formed by parallel dielectric cylinders embedded in a uniform medium. The transmission of electromagnetic waves through prism structures is calculated by the standard multiple scattering theory. The results demonstrate that, in certain frequency regimes and when the propagation inside the scattering media is not considered, the transmission behavior mimics the negative refraction expected for a left-handed material. This feature may illusively lead to the conclusion that a negative refraction is observed and it obeys Snell's law of negative refraction. Possible implications for current experimental and theoretical studies of negative refraction are also discussed.

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Sonic crystal lenses that obey the lensmaker's formula

Kuo¹,

Ye²

2004

J. Phys. D: Appl. Phys.

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This paper presents a theoretical study of the phenomenon of acoustic imaging by sonic crystals, which are made of two-dimensional regular arrays of rigid cylinders placed in parallel in air. The scattering of acoustic waves is computed using the standard multiple scattering theory, and the band structures are computed by the plane-wave expansion method. It is shown that properly arranged arrays not only can behave as acoustic lenses, but also the focusing effect can be well described by Lensmaker's formula. Possible applications are also discussed. PACS numbers: 43.20.+g, 43.90.+v

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Guiding optical flows by photonic crystal slabs made of dielectric cylinders

Chen

Kuo

2004

Phys. Rev. E

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We investigate the electromagnetic propagation in two-dimensional photonic crystals, formed by parallel dielectric cylinders embedded in a uniform medium. The frequency band structure is computed using the standard plane-wave expansion method, while the propagation and scattering of the electromagnetic waves are calculated by the multiple scattering theory. It is shown that within partial band gaps, the waves tend to bend away from the forbidden directions. Such a property may render novel applications in manipulating optical flows. In addition, the relevance with the imaging by flat photonic crystal slabs will also be discussed.

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Chao-Hsien Kuo

Acoustic imaging and collimating by slabs of sonic crystalsmade from arrays of rigid cylinders in air

Fluctuation and localization of acoustic waves in bubbly water

Negative-refraction-like behavior revealed by arrays of dielectric cylinders

Sonic crystal lenses that obey the lensmaker's formula

Guiding optical flows by photonic crystal slabs made of dielectric cylinders

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