Method and system for imaging objects in turbid media using diffusive fermat photons
February 3, 2015. Estimated Expiration Date is calculated based on simple USPTO term provisions. It does not account for terminal disclaimers, term adjustments, failure to pay maintenance fees, or other factors which might affect the term of a patent.Patent ReferencesApparatus and method for detecting tumors Method and apparatus for improving the signal to noise ratio of an image formed of an object hidden in or behind a semi-opaque random media Three-dimensional optical imaging of semi-transparent and opaque objects using ultrashort light pulses, a streak camera and a coherent fiber bundle Method and apparatus for imaging a physical parameter in turbid media using diffuse waves Multiple-stage optical Kerr gate system Time-gated imaging through dense-scattering materials using stimulated Raman amplification Holographic imaging through scattering media Optical CT imaging device Examination of subjects using photon migration with high directionality techniques Noninvasive method and apparatus for characterizing biological materials InventorsApplicationNo. 384112 filed on 02/03/1995US Classes:356/446With diffusionExaminersPrimary: Gonzalez, FrankAssistant: Eisenberg, Jason D. Attorney, Agent or FirmInternational ClassesA61B 005/00A61B 006/00 AbstractA method for imaging objects in turbid media. According to one embodiment of the invention, the method comprises the steps of (a) illuminating the object through the turbid medium with a pulse of light, the light emergent from the turbid medium consisting of a ballistic component, a snake-like component and a diffusive component, the diffusive component including Fermat photons and non-Fermat photons; (b) gating the light emergent from the turbid medium to preferentially select Fermat photons; and (c) forming an image of the object using the gated light. Preferably, a spatial gate is used to preferentially select Fermat photons from the emergent light. This may be done by orienting the source of the illuminating light and a light detector to lie along a most favorable path travelled predominately by Fermat photons. A time gate, such as a streak camera or the like, may be used in addition to the spatial gate to more carefully select Fermat photons from the emergent light. The above-described method may also be used to produce a tomography map of a turbid medium for use in detecting an object located within the turbid medium. This may be done, for example, by providing two or more pairs of light sources and light detectors which are arranged to provide intersecting most favorable paths. The present invention is also directed to systems constructed in accordance with the foregoing methods.Other References
Field of SearchWith diffraction grating meansBY PARTICLE LIGHT SCATTERING Of back-scattered light FOR SIZE OF PARTICLES With photocell detection By particle light scattering Having adjustable color or bandwidth At right angles to the light beam (e.g., nephelometer) At variable angle to the light beam In a double monochromator For light comparison means Using plural photocells With diffusion With irradiation or heating of object or material With means to inspect passive solid objects Measuring infrared radiation reflected from sample | |
