Patent application number | Description | Published |
20090086216 | Partially Coherent Illumination For Inverse Scattering Full-Field Interferometric Synthetic Aperture Microscopy - Methods and apparatus for three-dimensional imaging of a sample. A source is provided of a beam of light characterized by partial spatial coherence. The beam is focused onto a sample and scattered light from the sample is superposed with a reference beam derived from the source onto a focal plane detector array to provide an interference signal. A forward scattering model is derived relating measurement data to structure of an object to allow solutions of an inverse scattering problem, based upon the interference signal so that a three-dimensional structure of the same may be inferred. The partial spatial coherence of the source, which may be fixed or variable, may advantageously provide for rejection of multiple scattering artifacts and thus improve image quality. | 04-02-2009 |
20090185166 | MAGNETOMOTIVE OPTICAL COHERENCE TOMOGRAPHY - A spectral-domain magnetomotive optical coherence tomography apparatus, includes (a) a spectral-domain optical coherence tomography device, and (b) a magnet. The magnet is coupled with the optical coherence tomography device so that changes in the magnetic field are coordinated with collection of data by the optical coherence tomography device. This device may be used to examine a sample by spectral-domain magnetomotive optical coherence tomography, which includes examining the sample with a spectral-domain optical coherence tomography device, to collect optical coherence tomography data. The sample contains magnetic particles, and the magnetic particles are subjected to a changing magnetic field during the examining. | 07-23-2009 |
20090185191 | DEVICE AND METHOD FOR IMAGING THE EAR USING OPTICAL COHERENCE TOMOGRAPHY - A method of forming an image of tissue. The method includes non-invasively inserting a fiber-based device into a patient's ear canal and acquiring OCT data from ear tissue while the fiber-based device is in the ear canal. The method also includes converting the OCT data into at least one image. | 07-23-2009 |
20090221920 | LOW-COHERENCE INTERFEROMETRY AND OPTICAL COHERENCE TOMOGRAPHY FOR IMAGE-GUIDED SURGICAL TREATMENT OF SOLID TUMORS - A method of forming an image of tissue. The method includes beginning an invasive procedure on a patient exposing tissue. The method then includes acquiring OCT data from the exposed tissue and converting the OCT data into at least one image. The method also includes ending the invasive procedure after the converting of the data. | 09-03-2009 |
20090306489 | APPARATUS AND METHOD FOR MEASURING A CHARACTERISTIC OF A COMPOSITION REACTIVE TO A MAGNETIC FIELD - A system that incorporates teachings of the present disclosure may include, for example, a sensor having a pulse oximeter sensor to measure an oxygen saturation level in a liquid, a magnetic source coupled to the pulse oximeter sensor, and a controller to control the pulse oximeter sensor and the magnetic source, and to measure a mechanical effect on the liquid responsive to the magnetic source applying a magnetic field to the liquid. Additional embodiments are disclosed. | 12-10-2009 |
20100208252 | Matched Pulse Stimulated Raman Scattering - Methods and apparatus for selectively driving the vibrations of normal modes of a target molecule into coherence using stimulated Raman scattering. In concert, many vibrations produce a larger anti-Stokes signal than a single vibration. The same illumination does not drive other molecules to have coherent vibrations, so these molecules produce a weaker signal. Target and confounder molecules can be distinguished by pulses that drive many vibrations coherently, with applications in coherent Raman microspectroscopy. | 08-19-2010 |
20110063718 | Optical frequency up-conversion of femtosecond pulses into targeted single bands in the visible and ultraviolet - An apparatus and methods for generating a substantially supercontinuum-free widely-tunable multimilliwatt source of radiation characterized by a narrowband line profile. The apparatus and methods employ nonlinear optical mechanisms in a nonlinear photonic crystal fiber (PCF) by detuning the wavelength of a pump laser to a significant extent relative to the zero-dispersion wavelength (ZDW) of the PCF. Optical phenomena employed for the selective up-conversion in the PCF include, but are not limited to, four-wave mixing and Cherenkov radiation. Tunability is achieved by varying pump wavelength and power and by substituting different types of PCFs characterized by specified dispersion properties. | 03-17-2011 |
20110130652 | APPARATUS FOR BIOMEDICAL IMAGING - A system that incorporates teachings of the present disclosure may include, for example, a method involving capturing spectral interference from an optical coherence tomography imaging probe comprising a micro-electro-mechanical system (MEMS) scanning mirror, and a partial reflector for supplying images to an image sensor. Additional embodiments are disclosed. | 06-02-2011 |
20130190613 | Real-Time Biomechanical Dosimetry using Optical Coherence Elastography - Methods for quantifying, adjusting or terminating a dose of a therapeutic intervention applied to tissue of a patient. A therapeutic intervention of a specified intensity is applied to a region of interest of the tissue. The tissue is mechanically excited, typically concurrently with the therapeutic intervention, and the region of interest is scanned optically or ultrasonically at the same time. An interference signal is acquired by coherently detecting post-interaction illumination arising in the region of interest by interfering the post-interaction illumination with a reference beam derived from the identical source as that of the scanning. A phase and/or amplitude of response of the tissue relative to the mechanical excitation based on the interference signal. A spatially resolved measure of a property of the region of interest is derived based on the phase of response, allowing for adjustment or termination of the therapeutic intervention. | 07-25-2013 |
20130345558 | Hand-Held Fixed-Focus Optical Probe - An intraoperative probe and a system for optically imaging a surgically significant volume of tissue or other scattering medium. An illumination source generates an illuminating beam that is conveyed to the vicinity of the tissue and a beam splitter, that may be no more than an optical phase reference, splits the illuminating beam into a sample beam along a sample beam path and a reference beam along a reference beam path. A scanning mechanism scans a portion of the sample beam across a section of the scattering medium, while a detector detects return beams from both the reference beam path and the sample beam path and generates an interference signal. A processor computationally moves an effective focus of the sample beam without physical variation of focus of the sample beam. The probe may have a sterilizable fairing that may be detachable. | 12-26-2013 |
20140050382 | Computational Adaptive Optics for Interferometric Synthetic Aperture Microscopy and Other Interferometric Imaging - Methods for correcting for aberrations in the image or three-dimensional reconstruction of a sampled region obtained by broadband interferometry. The sampled region is illuminated with a broadband beam of light, and light returned from the sample is detected, along with a reference beam, in order to derive an interference signal for pixels of a volume spanned by wavenumber and axes transverse to the beam propagation direction. An optimization procedure is performed with respect to a specified criterion so as to obtain an aberration-corrected image of at least one plane of the sampled region, either in a plane-specific manner or in a space-invariant manner throughout the sampled region. A filter function, which may be derived from the interference signal attendant to irradiating a sparsely distributed plurality of point scatterers, or otherwise, corrects for a detected aberrated point spread function. Methods of the present invention may be used for aberration correction in reading information from an optical data storage medium. | 02-20-2014 |
20140333925 | Optical Parametric Amplification of Weak Signals for Imaging Biological Tissue - Methods and apparatus for obtaining an image of light scattering biological tissue. A series of pulses of substantially monochromatic light of a first wavelength is generated and split into two parts, of which one part illuminates a scattering biological tissue at an intensity too low to damage the tissue, while a second part is upconverted to generate a pump beam. Sample light from the biological tissue, which may be scattered (or transmitted) light, or fluorescence, or Raman scattering, etc., is collected and directed from the scattering biological tissue, along with the pump beam, into a non-linear optical element, in a single pass or multiple passes. Parametrically amplified sample light emerging from the non-linear optical element is detected and analyzed or displayed. | 11-13-2014 |