Apparatus and method for qualitative and quantitative measurements of optical properties of turbid media using frequencydomain photon migration
Abstract
Optical measurements of turbid media, that is media characterized by multiple light scattering, is provided through an apparatus and method for exposing a sample to a modulated laser beam. The light beam is modulated at a fundamental frequency and at a plurality of integer harmonics thereof. Modulated light is returned from the sample and preferentially detected at cross frequencies at frequencies slightly higher than the fundamental frequency and at integer harmonics of the same. The received radiance at the beat or cross frequencies is compared against a reference signal to provide a measure of the phase lag of the radiance and modulation ratio relative to a reference beam. The phase and modulation amplitude are then provided as a frequency spectrum by an array processor to which a computer applies a complete curve fit in the case of highly scattering samples or a linear curve fit below a predetermined frequency in the case of highly absorptive samples. The curve fit in any case is determined by the absorption and scattering coefficients together with a concentration of the active substance in the sample. Therefore, the curve fitting to the frequency spectrum can be used both for qualitative and quantitative analysis of substancesmore »
 Inventors:

 Irvine, CA
 Orange, CA
 Trabuco Canyon, CA
 Rudolf Raedersu, NO
 Claremont, CA
 Publication Date:
 Research Org.:
 Univ. of California (United States)
 OSTI Identifier:
 869931
 Patent Number(s):
 US 5424843
 Assignee:
 Regents of University of California (Oakland, CA)
 DOE Contract Number:
 FG0391ER61227
 Resource Type:
 Patent
 Country of Publication:
 United States
 Language:
 English
 Subject:
 apparatus; method; qualitative; quantitative; measurements; optical; properties; turbid; media; frequencydomain; photon; migration; characterized; multiple; light; scattering; provided; exposing; sample; modulated; laser; beam; fundamental; frequency; plurality; integer; harmonics; returned; preferentially; detected; frequencies; slightly; received; radiance; beat; compared; reference; signal; provide; measure; phase; lag; modulation; ratio; relative; amplitude; spectrum; array; processor; computer; applies; complete; curve; fit; highly; samples; linear; below; predetermined; absorptive; determined; absorption; coefficients; concentration; active; substance; fitting; analysis; substances; turbid media; highly scattering; fundamental frequency; curve fitting; optical measurements; light scattering; quantitative analysis; reference signal; reference beam; laser beam; light beam; optical properties; predetermined frequency; frequency spectrum; phase lag; modulated laser; quantitative measurements; modulated light; multiple light; quantitative measure; optical measurement; curve fit; quantitative measurement; active substance; /356/
Citation Formats
Tromberg, Bruce J, Tsay, Tsong T, Berns, Michael W, Svaasand, Lara O, and Haskell, Richard C. Apparatus and method for qualitative and quantitative measurements of optical properties of turbid media using frequencydomain photon migration. United States: N. p., 1995.
Web.
Tromberg, Bruce J, Tsay, Tsong T, Berns, Michael W, Svaasand, Lara O, & Haskell, Richard C. Apparatus and method for qualitative and quantitative measurements of optical properties of turbid media using frequencydomain photon migration. United States.
Tromberg, Bruce J, Tsay, Tsong T, Berns, Michael W, Svaasand, Lara O, and Haskell, Richard C. Sun .
"Apparatus and method for qualitative and quantitative measurements of optical properties of turbid media using frequencydomain photon migration". United States. https://www.osti.gov/servlets/purl/869931.
@article{osti_869931,
title = {Apparatus and method for qualitative and quantitative measurements of optical properties of turbid media using frequencydomain photon migration},
author = {Tromberg, Bruce J and Tsay, Tsong T and Berns, Michael W and Svaasand, Lara O and Haskell, Richard C},
abstractNote = {Optical measurements of turbid media, that is media characterized by multiple light scattering, is provided through an apparatus and method for exposing a sample to a modulated laser beam. The light beam is modulated at a fundamental frequency and at a plurality of integer harmonics thereof. Modulated light is returned from the sample and preferentially detected at cross frequencies at frequencies slightly higher than the fundamental frequency and at integer harmonics of the same. The received radiance at the beat or cross frequencies is compared against a reference signal to provide a measure of the phase lag of the radiance and modulation ratio relative to a reference beam. The phase and modulation amplitude are then provided as a frequency spectrum by an array processor to which a computer applies a complete curve fit in the case of highly scattering samples or a linear curve fit below a predetermined frequency in the case of highly absorptive samples. The curve fit in any case is determined by the absorption and scattering coefficients together with a concentration of the active substance in the sample. Therefore, the curve fitting to the frequency spectrum can be used both for qualitative and quantitative analysis of substances in the sample even though the sample is highly turbid.},
doi = {},
journal = {},
number = ,
volume = ,
place = {United States},
year = {1995},
month = {1}
}