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Journal Abstract Search

166 related items for PubMed ID: 9434306

  • 41. A method to estimate the ratio of absorption coefficients of two wavelengths using phase modulated near infrared light spectroscopy.
    Haida M, Chance B.
    Adv Exp Med Biol; 1994; 345():829-35. PubMed ID: 8079793
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  • 44. Transmission and fluorescence angular domain optical projection tomography of turbid media.
    Vasefi F, Ng E, Kaminska B, Chapman GH, Jordan K, Carson JJ.
    Appl Opt; 2009 Nov 20; 48(33):6448-57. PubMed ID: 19935964
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  • 45. Diffusion coefficient depends on time, not on absorption.
    Cai W, Xu M, Lax M, Alfano RR.
    Opt Lett; 2002 May 01; 27(9):731-3. PubMed ID: 18007914
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  • 46. [A specific feature of the procedure for determination of optical properties of turbid biological tissues and media in calculation tasks of medical noninvasive spectrophotometry].
    Rogatkin DA.
    Med Tekh; 2007 May 01; (2):10-6. PubMed ID: 17650641
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  • 47. Method for Measuring Absolute Optical Properties of Turbid Samples in a Standard Cuvette.
    Blaney G, Sassaroli A, Fantini S.
    Appl Sci (Basel); 2022 Nov 01; 12(21):. PubMed ID: 37811485
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  • 48. Diffuse light propagation in a turbid medium with varying refractive index: Monte Carlo modeling in a spherically symmetrical geometry.
    Shendeleva ML, Molloy JA.
    Appl Opt; 2006 Sep 20; 45(27):7018-25. PubMed ID: 16946780
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  • 49. Definition of the diffusion coefficient in scattering and absorbing media.
    Elaloufi R, Carminati R, Greffet JJ.
    J Opt Soc Am A Opt Image Sci Vis; 2003 Apr 20; 20(4):678-85. PubMed ID: 12683494
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  • 51. Nonlinear effects of localized absorption perturbations on the light distribution in a turbid medium.
    Graber HL, Aronson R, Barbour RL.
    J Opt Soc Am A Opt Image Sci Vis; 1998 Apr 20; 15(4):834-48. PubMed ID: 9536514
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  • 52. Effects of assuming constant optical scattering on measurements of muscle oxygenation by near-infrared spectroscopy during exercise.
    Ferreira LF, Hueber DM, Barstow TJ.
    J Appl Physiol (1985); 2007 Jan 20; 102(1):358-67. PubMed ID: 17023569
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  • 53. Quantitative fluorescence spectroscopy in turbid media: a practical solution to the problem of scattering and absorption.
    Chen Y, Chen ZP, Yang J, Jin JW, Zhang J, Yu RQ.
    Anal Chem; 2013 Feb 19; 85(4):2015-20. PubMed ID: 23327605
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  • 55. Implementation of a phase array diffuse optical tomographic imager.
    Rajan K, Vijayakumar V, Biswas SK, Vasu RM.
    Rev Sci Instrum; 2008 Aug 19; 79(8):084301. PubMed ID: 19044366
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  • 56. Characterization of spatial and temporal variations in the optical properties of tissuelike media with diffuse reflectance imaging.
    Fabbri F, Franceschini MA, Fantini S.
    Appl Opt; 2003 Jun 01; 42(16):3063-72. PubMed ID: 12790458
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  • 57. Detection of heterogeneities embedded within a turbid slab media using time- and frequency-domain methods: application to the mammography.
    Piron V, L'Huillier JP.
    Lasers Med Sci; 2006 Jul 01; 21(2):67-73. PubMed ID: 16596457
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  • 58. Measurement of the absorption and scattering properties of turbid liquid foods using hyperspectral imaging.
    Qin J, Lu R.
    Appl Spectrosc; 2007 Apr 01; 61(4):388-96. PubMed ID: 17456257
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  • 59. Semi-empirical model of the effect of scattering on single fiber fluorescence intensity measured on a turbid medium.
    Kanick SC, Robinson DJ, Sterenborg HJ, Amelink A.
    Biomed Opt Express; 2012 Jan 01; 3(1):137-52. PubMed ID: 22254174
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  • 60. Changes in optical properties of ex vivo rat prostate due to heating.
    Skinner MG, Everts S, Reid AD, Vitkin IA, Lilge L, Sherar MD.
    Phys Med Biol; 2000 May 01; 45(5):1375-86. PubMed ID: 10843110
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