Optics: measuring and testing – Range or remote distance finding – With photodetection
Reexamination Certificate
2007-04-24
2009-06-23
Alsomiri, Isam (Department: 3662)
Optics: measuring and testing
Range or remote distance finding
With photodetection
C356S491000, C356S256000
Reexamination Certificate
active
07551267
ABSTRACT:
Systems and methods for measuring a pulse length (τ0) of an ultra-short light pulse (P0) based on processing a number of substantially similar light pulses. The system includes an autocorrelation optical system adapted to receive the light pulses P0and create from each light pulse two beams having an associated optical path length difference ΔOPL. Providing a different ΔOPL for each light pulse creates an autocorrelation interference pattern representative of an autocorrelation of the light pulse P0. An LED detector detects the autocorrelation interference pattern and generates therefrom an autocorrelation signal. A signal-processing unit forms from the autocorrelation signal a digital count signal representative of a number of counted peaks in the autocorrelation signal above the full-width half maximum. Control electronics unit causes the varying ΔOPL and provides a difference signal (SΔ) representative of the ΔOPL to the signal-processing unit. The signal processing unit is adapted to calculate the pulse length based on ΔOPL and the number NCof counted peaks. The autocorrelation optical system can either be prism-based or electro-optical-interferometer based. The measurement system can be made very compact and is far less expensive and far easier to use as compared to prior art ultra-short pulse measurement systems.
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Bernath Robert
Duncan Joshua
Hemmer Michael
McComb Timothy
Puyoo Etienne
Alsomiri Isam
Opticus IP Law PLLC
University of Central Florida Research Foundation Inc.
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