Patents by Inventor Pavel SIDORENKO
Pavel SIDORENKO has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Publication number: 20230223729Abstract: A mode-lockable ring oscillator includes a gain element for amplifying an optical pulse into an amplified pulse, a nonlinear optical element for broadening the amplified pulse into a first spectrally-broadened pulse, a first optical filter for filtering the first spectrally-broadened pulse into a first filtered pulse, a passive nonlinear optical element for broadening the first filtered pulse into a second spectrally-broadened pulse, and a second optical filter for filtering the second spectrally-broadened pulse into a second filtered pulse. The first and second optical filters have passbands that partially overlap such that the ring cavity can lase CW. With these spectrally overlapping passbands, the mode-lockable ring oscillator can directly initiate single-pulse mode-locking by modulating pump power that pumps the gain element. After this modulation has stopped, the mode-lockable ring oscillator maintains this single-pulse mode-locking while the passbands remain spectrally overlapped.Type: ApplicationFiled: January 6, 2023Publication date: July 13, 2023Inventors: Henry HAIG, Pavel SIDORENKO, Frank WISE
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Publication number: 20220278498Abstract: Disclosed is a pulsed laser apparatus and method of generating a laser pulse. The apparatus includes an input coupler configured to receive pumping light from a pumping light source and a seed pulse from a seed pulse generator. The apparatus further includes a doped fiber-optic cable with an input port at a first end configured to receive the pumping light and the seed pulse. The doped fiber-optic cable amplifies the seed pulse to generate an output pulse. Along a first length of the doped fiber optic cable, the pulse spectrum broadens rapidly owing to nonlinearity. Beyond the first length in an extended portion, the output pulse shifts towards longer wavelengths and broadens in both spectral and temporal domains The apparatus also includes an output port at a second end of the doped fiber-optic cable, wherein the output pulse exits the doped fiber-optic cable at the output port.Type: ApplicationFiled: July 9, 2020Publication date: September 1, 2022Inventors: Frank Wise, Pavel Sidorenko, Walter Fu
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Patent number: 11347045Abstract: A ptychography system is presented for imaging an object located in an object plane. The ptychography system comprises an optical system, and a detection device. The optical system comprises a single shot ptychography arrangement configured and operable to create light response patterns from the object in the object plane on a pixel matrix of the detection device during the same exposure session of the detection device, wherein the optical system further comprises at least one light coding device configured and operable to apply at least one predetermined coding function to at least one of illuminating light and the light response of the object being collected, and said detection device is configured and operable with a predetermined duration of the exposure session during which the pixel matrix detects the collected light, such that image data indicative of the detected light during a single exposure session is in the form of a coded light response of the object being illuminated.Type: GrantFiled: March 13, 2018Date of Patent: May 31, 2022Assignee: TECHNION RESEARCH AND DEVELOPMEN T FOUNDATION LTD.Inventors: Oren Cohen, Gil Ilan Haham, Pavel Sidorenko, Oren Lahav, Or Peleg, Bing Kuan Chen
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Publication number: 20200142175Abstract: A ptychography system is presented for imaging an object located in an object plane. The ptychography system comprises an optical system, and a detection device. The optical system comprises a single shot ptychography arrangement configured and operable to create light response patterns from the object in the object plane on a pixel matrix of the detection device during the same exposure session of the detection device, wherein the optical system further comprises at least one light coding device configured and operable to apply at least one predetermined coding function to at least one of illuminating light and the light response of the object being collected, and said detection device is configured and operable with a predetermined duration of the exposure session during which the pixel matrix detects the collected light, such that image data indicative of the detected light during a single exposure session is in the form of a coded light response of the object being illuminated.Type: ApplicationFiled: March 13, 2018Publication date: May 7, 2020Inventors: Oren COHEN, Gil ILAN HAHAM, Pavel SIDORENKO, Oren LAHAV, Or PELEG, Bing Kuan CHEN
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Publication number: 20190305516Abstract: The technology described in this document can be used to implement an optical device for producing optical pulses that includes an optical oscillator including at least one optical arm including at least one piece of fiber and at least one optical filter, a starting arm coupled to the at least one optical arm to generate spikes of radiation for the optical oscillator to start pulsation, and an optical switch coupled between the optical oscillator and the starting arm to connect the starting arm to the at least one optical arm to start the optical oscillator using the spikes of radiation generated by the starting arm.Type: ApplicationFiled: March 27, 2019Publication date: October 3, 2019Inventors: Frank Wise, Zhanwei Liu, Walter Fu, Pavel Sidorenko
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Patent number: 10394011Abstract: A single-exposure ptychography system is presented. The system comprises an optical unit defining an light input plane, an imaging plane, and an object plane between the light input and output planes. The optical unit comprises at least a first focusing assembly, whose front focal plane defines a location of the light input plane; and a diffraction arrangement at a predetermined position with respect to the light input plane. The diffraction arrangement is configured to create from input plane wave light structured light in the form of an array of illuminating beams forming a predetermined illumination pattern in the object plane; thereby providing that each of the illuminating beams creates a different intensity pattern in a known region at the light output plane.Type: GrantFiled: September 13, 2016Date of Patent: August 27, 2019Assignee: TECHNION RESEARCH AND DEVELOPMENT FOUNDATION LTD.Inventors: Oren Cohen, Pavel Sidorenko
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Publication number: 20180284418Abstract: A single-exposure ptychography system is presented. The system comprises an optical unit defining an light input plane, an imaging plane, and an object plane between the light input and output planes. The optical unit comprises at least a first focusing assembly, whose front focal plane defines a location of the light input plane; and a diffraction arrangement at a predetermined position with respect to the light input plane. The diffraction arrangement is configured to create from input plane wave light structured light in the form of an array of illuminating beams forming a predetermined illumination pattern in the object plane; thereby providing that each of the illuminating beams creates a different intensity pattern in a known region at the light output plane.Type: ApplicationFiled: September 13, 2016Publication date: October 4, 2018Inventors: Oren COHEN, Pavel SIDORENKO
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Patent number: 9159119Abstract: A method and system are presented for reconstructing an input field where the latter is sensed by a measurement system. The method comprises: providing measured data corresponding to output field of said measurement system; providing data about sparsity of the input field, and data about effective response function of the measurement system; and processing the measured data based on said known data, the processing comprising: determining a sparse vector as a function of said measured data, said data about the sparsity of the input field, and said data about the effective response function; and using the sparse vector for reconstructing the input information. The invention allows for sub-wavelength resolution in imaging applications, and allows for detection of very short pulses by slow detectors in some other applications.Type: GrantFiled: January 5, 2012Date of Patent: October 13, 2015Assignee: TECHNION RESEARCH AND DEVELOPMENT FOUNDATION LTD.Inventors: Yoav Shechtman, Alexander Szameit, Mordechai Segev, Oren Cohen, Yonina Eldar, Snir Gazit, Pavel Sidorenko
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Publication number: 20120188368Abstract: A method and system are presented for reconstructing an input field where the latter is sensed by a measurement system. The method comprises: providing measured data corresponding to output field of said measurement system; providing data about sparsity of the input field, and data about effective response function of the measurement system; and processing the measured data based on said known data, the processing comprising: determining a sparse vector as a function of said measured data, said data about the sparsity of the input field, and said data about the effective response function; and using the sparse vector for reconstructing the input information. The invention allows for sub-wavelength resolution in imaging applications, and allows for detection of very short pulses by slow detectors in some other applications.Type: ApplicationFiled: January 5, 2012Publication date: July 26, 2012Applicant: TECHNION RESEARCH AND DEVELOPMENT FOUNDATION LTD.Inventors: Yoav SHECHTMAN, Alexander SZAMEIT, Mordechai SEGEV, Oren COHEN, Yonina ELDAR, Snir GAZIT, Pavel SIDORENKO