Hajian
Arsen Hajian, Waterloo CA
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20130286404 | METHODS AND APPARATUS FOR ALIGNMENT OF INTERFEROMETER - Methods and apparatus are provided for the alignment of an interferometric system. A spatial filter comprising a reflective pinhole is provided at the output of the interferometer, and tilt is measured by a tilt detection subsystem positioned to reimage the pinhole. A shear detection subsystem is positioned to image an offset of the interferometer beams. Tilt and shear offsets are determined by comparing measurements obtained from the tilt and shear subsystems with pre-recorded measurements obtained for an aligned state. The tilt and shear offsets are employed to realign the system using positioning controls corresponding a reduced number of dominant degrees of freedom of the system. | 10-31-2013 |
Arsen Hajian, Toronto CA
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20140085634 | Multi-Function Spectrometer-On-Chip with a Single Detector Array - Various embodiments of apparatuses, systems and methods are described herein for a spectrometer comprising at least two dispersive elements configured to receive at least one input optical signal and generate two or more pluralities of spatially separated spectral components, at least a portion of the at least two dispersive elements being implemented on a first substrate; and a single detector array coupled to the at least two dispersive elements and configured to receive and measure two or more pluralities of narrowband optical signals derived from the two or more pluralities of spatially separated spectral components, respectively. | 03-27-2014 |
20140092385 | DISPERSED FOURIER TRANSFORM SPECTROMETER, METHODS AND SYSTEMS - A spectrometer is provided, the spectrometer having an interferometer generating an interferogram by splitting an interferometer input signal between a reference arm and a variable delay arm, and introducing a delay between the split interferometer input signals prior to interfering the split interferometer input signals. The spectrometer additionally has a controllable delay element operable to adjust the delay introduced by the interferometer and a dispersive element outputting a plurality of narrowband outputs representative of a received broadband input signal. The interferometer and dispersive element are optically connected to output a plurality of narrowband interferograms representative of a spectra of a spectrometer input signal received by the spectrometer, and the plurality of narrowband interferograms are received by a detector array for analysis. | 04-03-2014 |
20140125983 | INTERFEROMETERY ON A PLANAR SUBSTRATE - An interferometer comprising a planar substrate is provided. The interferometer has a splitter formed on the planar substrate to split a received optical signal, a sample arm formed on the planar substrate to receive a first portion of the split optical signal and direct the first portion toward a sample, a reference arm formed on the planar substrate to receive a second portion of the split optical signal, and a detector element to receive an interferogram generated by interfering the second portion of the split optical signal with a received sample signal generated by the first portion of the split signal interacting with the sample. | 05-08-2014 |
Arsen Hajian, Brookline, MA US
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20150153228 | MULTI-FUNCTION SPECTROMETER-ON-CHIP WITH A SINGLE DETECTOR ARRAY - Various embodiments of apparatuses, systems and methods are described herein for a spectrometer comprising at least two dispersive elements configured to receive at least one input optical signal and generate two or more pluralities of spatially separated spectral components, at least a portion of the at least two dispersive elements being implemented on a first substrate; and a single detector array coupled to the at least two dispersive elements and configured to receive and measure two or more pluralities of narrowband optical signals derived from the two or more pluralities of spatially separated spectral components, respectively. | 06-04-2015 |
Arsen A. Hajian, Waterloo CA
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20100274501 | SYSTEMS FOR TERRESTRIAL TARGET DETECTION AND CHARACTERIZATION USING A DISPERSED FOURIER TRANSFORM SPECTROMETER - A precision molecular and motion sensor utilizing a Dispersed Fourier Transform Spectrometer to remotely sense targets. Remote sensing is conducted at various ranges, against various ambient backgrounds, to detect, classify, identify, characterize, and discriminate targets. A Dispersed Fourier Transform Spectrometer is expanded by modification and augmentation of existing optical, mechanical, and software components to enable basic terrestrial use while providing specific optimization for various applications which are designed with emphasis on the sensitivity of the Dispersed Fourier Transform Spectrometer. | 10-28-2010 |
Arsen R. Hajian, Brookline, MA US
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20150369665 | MULTI BACKEND ULTRA-BROADBAND DISPERSIVE SPECTROMETER - Various embodiments of systems and methods are described herein that can be used for obtaining large bandwidth, high resolution spectral images in a single snapshot by using multiple detection stages that operate in different wavelength ranges and are coupled in a branch-like fashion. | 12-24-2015 |
Arsen R. Hajian, Waterloo CA
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20090136104 | Noise Reduction Apparatus, Systems, and Methods - This document describes a general system for noise reduction, as well as a specific system for Magnetic Resonance Imaging (MRI) and Nuclear Quadrupole Resonance (NQR). The general system, which is called Calculated Readout by Spectral Parallelism (CRISP), involves reconstruction and recombination of frequency-limited broadband data using separate narrowband data channels to create images or signal profiles. A multi-channel CRISP system can perform this separation using (1) frequency tuned hardware, (2) a frequency filter-bank (or equivalent), or (3) a combination of implementations (1) and (2). This system significantly reduces what we call cross-frequency noise, thereby increasing signal-to-noise-ratio (SNR). A multi-channel CRISP system applicable to MRI and NQR are described. | 05-28-2009 |
20110299075 | OPTICAL SLICER FOR IMPROVING THE SPECTRAL RESOLUTION OF A DISPERSIVE SPECTROGRAPH - An optical slicer for generating an output spot comprising an image compressor which receives a substantially collimated input beam and compresses the beam, wherein the input beam, if passed through a focusing lens, produces an input spot; an image reformatter which receives the compressed beam to reformat the beam into a plurality of sliced portions of the compressed beam and vertically stacks the portions substantially parallel to each other; and an image expander which expands the reformatted beam to produce a collimated output beam which, if passed through the focusing lens, produces the output spot that is expanded in a first dimension and compressed in a second dimension relative to the input spot. | 12-08-2011 |
20120218558 | APPARATUS AND METHODS FOR OPTICAL COHERENCE TOMOGRAPHY AND CONFOCAL MICROSCOPY - An optical imaging device which receives an optical collimated input beam, the device having a pair of axicon lenses through which a beam is directed to generate a collimated ring beam, wherein the ring beam is scattered from a substance to generate a return beam, and to bypass a reflector that redirects the return beam to prevent the return beam from interfering with the input beam; and a detector which detects an image projected by the return beam. | 08-30-2012 |
Arsen R. Hajian, Toronto CA
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20130027711 | TIME DOMAIN-FREQUENCY DOMAIN OPTICAL COHERENCE TOMOGRAPHY APPARATUS AND METHODS FOR USE - An optical coherence tomography (OCT) system comprising: a splitter configured to receive and split an optical source beam generating a reference beam and a sample beam, the sample beam directed at a sample and interacting with the sample to generate a return beam; a delay module configured to receive and introduce an optical delay in the reference beam, to generate a delayed reflected beam configured to interfere with the return beam to generate an interferogram; a spatial filter system capable of filtering randomly scattered light from at least one of the return beam or the interferogram; and a detector array to receive the interferogram for spatial and spectral analysis. | 01-31-2013 |
20130176565 | OPTICAL SLICER FOR IMPROVING THE SPECTRAL RESOLUTION OF A DISPERSIVE SPECTROGRAPH - A beam reformatter to receive and split a beam into a plurality of beam portions, and further distribute and propagate two or more of the plurality of beam portions in substantially the same direction to create a reformatted composite beam, wherein the plurality of beam portions each contain the same spatial and spectral information as the received beam. An optical slicer to receive and configure a beam for generating an output spot from the configured beam, comprising: a beam reformatter to receive and split a beam into a plurality of beam portions, and further distribute and propagate two or more of the plurality of beam portions in substantially the same direction to create a reformatted composite beam; and at least one of a beam compressor and a beam expander wherein the plurality of beam portions each contain the same spatial and spectral information as the received beam; and the output spot has different dimensions relative to a spot produced in the same manner from the beam received by the optical slicer. | 07-11-2013 |