| scholarly article | Q13442814 |
| P2093 | author name string | José Alberto Delgado Atencio | |
| Beatriz Morales Cruzado | |||
| Sergio Vázquez Y Montiel | |||
| P2860 | cites work | MCML—Monte Carlo modeling of light transport in multi-layered tissues | Q29305031 |
| Determination of optical properties of human blood in the spectral range 250 to 1100 nm using Monte Carlo simulations with hematocrit-dependent effective scattering phase functions | Q33248933 | ||
| Preparation and characterization of polyurethane optical phantoms | Q33257050 | ||
| Blood-flow measurements with a small number of scattering events. | Q33324111 | ||
| Accuracies of the diffusion approximation and its similarity relations for laser irradiated biological media | Q33606925 | ||
| Optical Properties of Circulating Human Blood in the Wavelength Range 400-2500 nm. | Q34422445 | ||
| Modeling optical and thermal distributions in tissue during laser irradiation | Q36465796 | ||
| Tissue optical property measurements: overestimation of absorption coefficient with spectrophotometric techniques. | Q36752687 | ||
| Changes in optical properties of human whole blood in vitro due to slow heating. | Q36850047 | ||
| Determination of optical properties of turbid media using pulsed photothermal radiometry | Q44035896 | ||
| Multiple polynomial regression method for determination of biomedical optical properties from integrating sphere measurements. | Q45898234 | ||
| T-matrix computations of light scattering by red blood cells. | Q50659332 | ||
| Optical properties of platelets and blood plasma and their influence on the optical behavior of whole blood in the visible to near infrared wavelength range. | Q50703201 | ||
| Oxygen saturation-dependent absorption and scattering of blood. | Q51991350 | ||
| Determination of optical properties and blood oxygenation in tissue using continuous NIR light. | Q52324933 | ||
| Determining the optical properties of turbid media by using the adding–doubling method | Q52400997 | ||
| Double-integrating-sphere system for measuring the optical properties of tissue. | Q52401007 | ||
| A mathematical model for ultraviolet optics in skin. | Q52433373 | ||
| Time resolved reflectance and transmittance for the noninvasive measurement of tissue optical properties | Q60339300 | ||
| Measurements of the optical properties of tissue in conjunction with photodynamic therapy | Q62540979 | ||
| Optical properties of ocular fundus tissues-an in vitro study using the double-integrating-sphere technique and inverse Monte Carlo simulation | Q72022566 | ||
| Near-infrared optical properties of ex vivo human skin and subcutaneous tissues measured using the Monte Carlo inversion technique | Q77357391 | ||
| New contributions to the optics of intensely light-scattering materials | Q79594397 | ||
| Multiple scattering calculations for technology | Q82687065 | ||
| Inverse hybrid technique for determining the optical properties of turbid media from integrating-sphere measurements | Q82852942 | ||
| P433 | issue | 3 | |
| P304 | page(s) | 433-446 | |
| P577 | publication date | 2013-02-15 | |
| P1433 | published in | Biomedical Optics Express | Q4915117 |
| P1476 | title | Genetic algorithms and MCML program for recovery of optical properties of homogeneous turbid media | |
| P478 | volume | 4 |
| Q41814627 | Hybrid algorithm for simulating the collimated transmittance of homogeneous stratified turbid media | cites work | P2860 |
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