Laboratory validation of range-resolved reflective tomography signal-to-noise expressions.

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Laboratory validation of range-resolved reflective tomography signal-to-noise expressions. Abstract Text:

C L Matson,J Boger,

The Air Force Phillips Laboratory is in the process of demonstrating an advanced space surveillance capability with a heterodyne laser radar (ladar) system. Notable features of this ladar system include its narrow micropulses (<1.5 ns) contained in a pulse-burst wave form that allows high-resolution range data to be obtained and its high power (30 J/pulse burst) that permits reasonable signal returns from satellites. Recently, time-resolved image-domain signal-to-noise ratios have been derived for both the intensity projections calculated from the range-resolved reflective data and image information obtained with linear combinations of the projections. In this paper the signal-to-noise expression for intensity projections is validated by laboratory data.

Laboratory validation of range-resolved reflective tomography signal-to-noise expressions. Publishing Authors By Initials

CL Matson,J Boger,

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Laboratory validation of range-resolved reflective tomography signal-to-noise expressions. Journal Published:

PUBLICATION TYPE: Journal Article

Journal: Applied optics

VOLUME: 36

Page Numbers: 3165-73

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ISSN: 0003-6935

DAY: 10

MONTH: May

YEAR: 1997

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LANGUAGE: eng

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Country: United States

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MEDLINETA: Appl Opt

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