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Your search keyword '"Hayakawa, CK"' showing total 25 results

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2. In vivo multiphoton NADH fluorescence reveals depth-dependent keratinocyte metabolism in human skin

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3. A novel monte carlo approach for diagnostic fiber optic probe design

4. Frequency domain photon migration in the delta- P1 approximation: analysis of ballistic, transport, and diffuse regimes.

5. Frequency domain photon migration in the δ-P1 approximation: Analysis of ballistic, transport, and diffuse regimes

6. Sampling tissue volumes using frequency-domain photon migration

7. Perturbation Monte Carlo methods to solve inverse photon migration problems in heterogeneous tissues.

8. Radiative transport in the delta-P1 approximation for semi-infinite turbid media

9. Use of the δ-P1 approximation for recovery of optical absorption, scattering, and asymmetry coefficients in turbid media

10. MCCL: an open-source software application for Monte Carlo simulations of radiative transport.

12. Optical sampling depth in the spatial frequency domain.

13. Development of perturbation Monte Carlo methods for polarized light transport in a discrete particle scattering model.

14. Rapid computation of the amplitude and phase of tightly focused optical fields distorted by scattering particles.

15. Coupled forward-adjoint Monte Carlo simulation of spatial-angular light fields to determine optical sensitivity in turbid media.

16. Comparative analysis of discrete and continuous absorption weighting estimators used in Monte Carlo simulations of radiative transport in turbid media.

17. Quantitative, depth-resolved determination of particle motion using multi-exposure, spatial frequency domain laser speckle imaging.

18. Perturbation Monte Carlo methods for tissue structure alterations.

19. Electric field Monte Carlo simulations of focal field distributions produced by tightly focused laser beams in tissues.

20. Amplitude and phase of tightly focused laser beams in turbid media.

21. Radiative transport in the delta-P1 approximation for semi-infinite turbid media.

22. Determination of optical properties of superficial volumes of layered tissue phantoms.

23. Perturbation and differential Monte Carlo methods for measurement of optical properties in a layered epithelial tissue model.

24. Use of the delta-P1 approximation for recovery of optical absorption, scattering, and asymmetry coefficients in turbid media.

25. Sampling tissue volumes using frequency-domain photon migration.