David R. Cassidy scite author profile

David R. Cassidy

3Publications

3Citation Statements Received

11Citation Statements Given

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Durham University

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Universal method to determine the thermo-optic coefficient of optical waveguide layer materials using a dual slab waveguide

Cassidy

Cross

2007

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A dual slab waveguide device method for determining the thermo-optic coefficient of waveguide layer materials is demonstrated. Temperature change-induced optical path length imbalance between two single slab waveguide modes provides the primary mechanism for detection. The waveguide mode output field phase change differences are encoded in shifts in the far field interference pattern. To illustrate the method, the thermo-optic coefficients of two In1−xGaxAsyP1−y quaternary alloys, 1.3Q and 1.15Q, are measured at a wavelength of 1.55μm and at a center temperature of 25.2°C. Their ratio is in excellent agreement with previous work, in accordance with optical dispersion models.

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Picometer Resolution Wavelength Tracking in the $C$-Band Using an InP–InGaAsP Dual-Slab Interferometer

Cassidy

Cross

2007

IEEE Photon. Technol. Lett.

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C-band Laser Wavelength Tracking using a Dual Slab Waveguide Interferometer

Cassidy

Cross

2005

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David R. Cassidy

Universal method to determine the thermo-optic coefficient of optical waveguide layer materials using a dual slab waveguide

Picometer Resolution Wavelength Tracking in the $C$-Band Using an InP–InGaAsP Dual-Slab Interferometer

C-band Laser Wavelength Tracking using a Dual Slab Waveguide Interferometer

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