R. Guida scite author profile

R. Guida

5Publications

19Citation Statements Received

15Citation Statements Given

How they've been cited

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Affiliations

GE Global Research (United States), General Electric (United States)

Publications

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Photonic bandgap fiber-enabled Raman detection of nitrogen gas

Chen

Codella

Guida

et al. 2009

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Raman detection of nitrogen gas is very difficult without a multi-pass arrangement and high laser power. Hollow-core photonic bandgap fibers (HC-PBF) provide an excellent means of concentrating light energy in a very small volume and long interaction path between gas and laser. One particular commercial fiber with a core diameter of 4.9 microns offers losses of about 1dB/m for wavelengths between 510 and 610 nm. If 514nm laser is used for excitation, the entire Raman spectrum up to above 3000 cm -1 will be contained within the transmission band of the fiber. A standard Raman microscope launches mW level 514nm laser light into the PBF and collects backscattered Raman signal exiting the fiber. The resulting spectra of nitrogen gas in air at ambient temperature and pressure exhibit a signal enhancement of about several thousand over what is attainable with the objective in air and no fiber. The design and fabrication of a flowthrough cell to hold and align the fiber end allowed the instrument calibration for varying concentrations of nitrogen. The enhancement was also found to be a function of fiber length. Due to the high achieved Raman signal, rotational spectral of nitrogen and oxygen were observed in the PBF for the first time to the best of our knowledge.

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Self-Aligned Single-Mode Polymer Waveguide Interconnections for Efficient Chip-to-Chip Optical Coupling

Deng

Gorczyca²,

Lee³

et al. 2006

IEEE J. Select. Topics Quantum Electron.

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Optoelectronic packaging and polymer waveguides for multichip module and board-level optical interconnect applications

Liu¹,

Cole²,

Guida³

et al.

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Laser-induced selective copper deposition on polyimide

Cole

Liu

Rose

et al. 1988

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Laser irradiation of organometallic palladium compounds with an argon ion laser at 351 nm is used to selectively deposit catalytic amounts of palladium on polyimide. Subsequent immersion of the irradiated samples in an electroless copper solution results in copper deposition. Since a few monolayers of palladium are sufficient to catalyze the electroless copper process, fast writing speeds of several centimeters per second are obtained.

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Laser ablation of polymers for high-density interconnect

Liu

Cole

Guida

1993

Microelectronic Engineering

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R. Guida

Photonic bandgap fiber-enabled Raman detection of nitrogen gas

Self-Aligned Single-Mode Polymer Waveguide Interconnections for Efficient Chip-to-Chip Optical Coupling

Optoelectronic packaging and polymer waveguides for multichip module and board-level optical interconnect applications

Laser-induced selective copper deposition on polyimide

Laser ablation of polymers for high-density interconnect

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