Patents Assigned to Yeda Research and Development Company Ltd.
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Patent number: 8288945Abstract: A method for fabrication of substrate having a nano-scale surface roughness is presented. The method comprises: patterning a surface of a substrate to create an array of spaced-apart regions of a light sensitive material; applying a controllable etching to the patterned surface, said controllable etching being of a predetermined duration selected so as to form a pattern with nano-scale features; and removing the light sensitive material, thereby creating a structure with the nano-scale surface roughness. Silanizing such nano-scale roughness surface with hydrophobic molecules results in the creation of super-hydrophobic properties characterized by both a large contact angle and a large tilting angle. Also, deposition of a photo-active material on the nano-scale roughness surface results in a photocathode with enhanced photoemission yield. This method also provides for fabrication of a photocathode insensitive to polarization of incident light.Type: GrantFiled: September 12, 2010Date of Patent: October 16, 2012Assignee: Yeda Research and Development Company LtdInventors: Ron Naaman, Ben Golan, Zeev Fradkin, Adam Winkleman, Dan Oron
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Patent number: 8268138Abstract: The present invention relates to a system comprising a heat source to provide heat at the desired temperature and energy field (e.g. a solar concentrator); an electron source configured and operable to emit electrons; an electric field generator generating an electric field adapted to supply energy sufficient to dissociate gas molecules; and a reaction gas chamber configured and operable to cause interaction between the electrons with the molecules, such that the electrons dissociate the molecules to product compound and ions via dissociative electrons attachment (DEA) within the chamber.Type: GrantFiled: January 20, 2011Date of Patent: September 18, 2012Assignee: Yeda Research and Development Company Ltd.Inventors: Jacob Karni, Gidon Ferdiman, Yury Alioshin
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Patent number: 8217384Abstract: A device and method for manipulating a direction of motion of current carriers are presented. The device comprises a structure containing a two-dimensional gas of current carriers configured to define at least one region of inhomogeneity which is characterized by a substantially varying value of at least one parameter from the following: a spin-orbit coupling constant, density of the spin carriers, and a mobility of the gas. The device may be configured and operable to perform spin manipulation of a flux of the spin carrying current carriers to provide at least one of the following types of deviation of said spin-carrying current: spin dependent refraction, spin dependent reflection and spin dependent diffraction on desired deviation angles of a direction of motion of the spin-carrying current carriers being incident on said at least one region of inhomogeneity.Type: GrantFiled: October 25, 2010Date of Patent: July 10, 2012Assignee: Yeda Research and Development Company Ltd.Inventors: Alexander Finkelstein, Maxim Khodas, Arcadi Shehter
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Patent number: 8182719Abstract: A novel pyroelectric compound is presented. The compound is inorganic, quasi-amorphous oxide compound of a metal, mixture of metals or semiconducting element.Type: GrantFiled: June 10, 2004Date of Patent: May 22, 2012Assignee: Yeda Research and Development Company Ltd.Inventor: Igor Lubomirsky
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Patent number: 8101552Abstract: The invention pertains to the use of six-membered cyclic phosphates as plant growth regulators and methods for regulating the growth of plants using such compounds.Type: GrantFiled: March 14, 2006Date of Patent: January 24, 2012Assignees: Yeda Research and Development Company Ltd., Ben Gurion University of the Negev Research and Development AuthorityInventors: Meir Shinitzky, Dan Pelah, David Mills, Hanna Mills, legal representative, Avishay Pelah
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Patent number: 8071391Abstract: This invention seeks to provide methods and apparatus for analysis. Electromagnetic radiation is transmitted through a plurality of metallic islands on a transparent substrate. A resultant optical property of the plurality of metallic islands is measured. Thereafter a chemical substance is adsorbed onto the plurality of metallic islands so as to produce a chemical substance-metallic islands moiety. Electromagnetic radiation is transmitted through the chemical substance-metallic islands moiety and a resultant optical property of metallic islands in the chemical substance-metallic islands moiety is measured.Type: GrantFiled: August 3, 2001Date of Patent: December 6, 2011Assignee: Yeda Research and Development Company Ltd.Inventors: Israel Rubinstein, Alexander Vaskevich, Gregory Kalyuzhny
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Publication number: 20110236948Abstract: The present invention relates to a method and apparatus for patterning a substrate. The method comprises providing at least one magnetic pattern generator configured and operable to modulate the magnetic field to induce varying magnetic properties to a magnetic field according to a desired pattern; applying the modulated magnetic field in the vicinity of the substrate creating a certain pattern of regions of interaction to be obtained on top of the substrate; and; interacting the substrate with magnetic particles, while under the application of the modulated magnetic field, the magnetic particles being attracted to selected regions of interaction defined by the certain pattern while being substantially not attracted to regions outside the regions of interaction, thus creating on top of the substrate the certain pattern of regions interacted with the magnetic particles.Type: ApplicationFiled: November 3, 2009Publication date: September 29, 2011Applicant: YEDA RESEARCH AND DEVELOPMENT COMPANY LTD.Inventors: Ron Naaman, Amos Bardea, Alexander Yoffe
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Publication number: 20110210246Abstract: The present invention relates to a novel system and method for the determination of depth profiling with improved accuracy and reliability. The method comprises obtaining spectroscopic data from the sample while under at least two different electrical conditions of the sample, the spectroscopic data comprising a signal of charged particles emitted from the sample, and being indicative of a change in amplitude, spectral position and spectral shape of the signal from the sample while under different electrical conditions of the sample, the change being indicative of the compositional profile and spatial distribution for at least one chemical element in the sample along a direction through the sample.Type: ApplicationFiled: October 22, 2009Publication date: September 1, 2011Applicant: YEDA RESEARCH AND DEVELOPMENT COMPANY LTD.Inventor: Hagai COHEN
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Publication number: 20110206596Abstract: Provided is a multilayered nanostructure including at least one first layered nanotube including at least one first inorganic material and having an inner void holding at least one second layered nanotube including at least one second inorganic material; where the at least on first nanotube and at least one second nanotube differ in at least one of structure and material. Further provided are processes for the manufacture of multilayered nanostructures and uses thereof.Type: ApplicationFiled: November 10, 2009Publication date: August 25, 2011Applicant: YEDA RESEARCH AND DEVELOPMENT COMPANY LTD.Inventors: Reshef Tenne, Sung You Hong, Ronen Kreizman, Francis Leonard Deepak
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Patent number: 7959891Abstract: The present invention provides a process for obtaining fullerene-like metal chalcogenide nanoparticles, comprising feeding a metal precursor selected from metal halide, metal carbonyl, organo-metallic compound and metal oxyhalide vapor into a reaction chamber towards a reaction zone to interact with a flow of at least one chalcogen material in gas phase, the temperature conditions in said reaction zone being such to enable the formation of the fullerene-like metal chalcogenide nanoparticles product. The present invention further provides novel IF metal chalcogenides nanoparticles with spherical shape and optionally having a very small or no hollow core exhibiting excellent tribological behaviour. The present invention further provides an apparatus for preparing various IF nanostructures.Type: GrantFiled: January 4, 2010Date of Patent: June 14, 2011Assignees: Yeda Research & Development Company Ltd, A.Y.Y.T. Technological Application and Data Update LtdInventors: Reshef Tenne, Alexander Margolin, Ronit Popovitz-Biro, Lev Rapoport
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Publication number: 20110108435Abstract: The present invention relates to a system comprising a heat source to provide heat at the desired temperature and energy field (e.g. a solar concentrator); an electron source configured and operable to emit electrons; an electric field generator generating an electric field adapted to supply energy sufficient to dissociate gas molecules; and a reaction gas chamber configured and operable to cause interaction between the electrons with the molecules, such that the electrons dissociate the molecules to product compound and ions via dissociative electrons attachment (DEA) within the chamber.Type: ApplicationFiled: January 20, 2011Publication date: May 12, 2011Applicant: YEDA RESEARCH AND DEVELOPMENT COMPANY LTD.Inventors: Jacob KARNI, Gidon FERDIMAN, Yury ALIOSHIN
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Patent number: 7933301Abstract: A resonator cavity (10A) and method are provided. The resonator cavity (10A) includes at least one gain medium (16) and end reflectors (12, 14) which define together longitudinal modes of light in the cavity, and further includes an intra-cavity beam coupler assembly (20). The beam coupler assembly (20) is configured to split light impinging thereon into a predetermined number of spatially separated light channels, and to cause phase locking and at least partial coherent combining of the light channels, having common longitudinal and transverse modes, in a double pass through the beam coupler assembly (20). The resonator cavity (10A) is configured and operable to produce at least one output combined light channel of a predetermined intensity profile.Type: GrantFiled: June 8, 2009Date of Patent: April 26, 2011Assignee: Yeda Research and Development Company Ltd.Inventors: Amiel A. Ishaaya, Nir Davidson, Asher A. Friesem, Liran Shimshi
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Publication number: 20110037512Abstract: A device and method for manipulating a direction of motion of current carriers are presented. The device comprises a structure containing a two-dimensional gas of current carriers configured to define at least one region of inhomogeneity which is characterized by a substantially varying value of at least one parameter from the following: a spin-orbit coupling constant, density of the spin carriers, and a mobility of the gas. The device may be configured and operable to perform spin manipulation of a flux of the spin carrying current carriers to provide at least one of the following types of deviation of said spin-carrying current carriers: spin dependent refraction, spin dependent reflection and spin dependent diffraction on desired deviation angles of a direction of motion of the spin-carrying current carriers being incident on said at least one region of inhomogeneity.Type: ApplicationFiled: October 25, 2010Publication date: February 17, 2011Applicant: Yeda Research and Development Company Ltd.Inventors: Alexander FINKELSTEIN, Maxim Khodas, Arcadi Shehter
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Publication number: 20110033666Abstract: A method is presented for use in fabrication of metal islands on an oxide substrate. The method comprises: depositing a selected metal on the oxide substrate by evaporation of said selected metal; and annealing a film of the selected metal on said substrate at temperatures including an annealing temperature being less than 50° C. lower than a glass transition temperature, thereby forming the metal islands partially embedded in said substrate.Type: ApplicationFiled: April 7, 2009Publication date: February 10, 2011Applicant: YEDA RESEARCH AND DEVELOPMENT COMPANY LTD.Inventors: Israel Rubinstein, Alexander Vaskevich, Tatyana Karakouz
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Publication number: 20110006674Abstract: A method for fabrication of substrate having a nano-scale surface roughness is presented. The method comprises: patterning a surface of a substrate to create an array of spaced-apart regions of a light sensitive material; applying a controllable etching to the patterned surface, said controllable etching being of a predetermined duration selected so as to form a pattern with nano-scale features; and removing the light sensitive material, thereby creating a structure with the nano-scale surface roughness. Silanizing such nano-scale roughness surface with hydrophobic molecules results in the creation of super-hydrophobic properties characterized by both a large contact angle and a large tilting angle. Also, deposition of a photo-active material on the nano-scale roughness surface results in a photocathode with enhanced photoemission yield. This method also provides for fabrication of a photocathode insensitive to polarization of incident light.Type: ApplicationFiled: September 12, 2010Publication date: January 13, 2011Applicant: Yeda Research and Development Company Ltd. Israeli Company, At The Weizmann Institute of ScienceInventors: Ron NAAMAN, Ben GOLAN, Zeev FRADKIN, Adam WINKLEMAN, Dan ORON
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Patent number: 7826051Abstract: A method and system (10) are presented for producing exciting radiation (P?) to be used in producing an output coherent anti-stokes Raman scattering (CARS) signal of a medium (12). An input spectral phase coherent optical pulse (P), carrying a pump, a Stokes and a probe photon, is optically processed by adjusting spectral phase and polarization of wavelength components of the input pulse to produce a unitary optical exciting pulse (P?) that carries the pump photon, the Stokes photon and multiple probe photons and is capable of inducing interference between contributions from at least some of vibrational levels in the CARS signal.Type: GrantFiled: May 27, 2004Date of Patent: November 2, 2010Assignee: Yeda Research and Development Company Ltd.Inventors: Yaron Silberberg, Nirit Dudovich, Dan Oron
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Patent number: 7799541Abstract: Interleukin-18 binding proteins which are capable of binding IL-18 and/or modulating and/or blocking IL-18 activity are provided. Methods for their isolation and recombinant production, DNAs encoding them, DNA vectors expressing them, vecotors useful for their expression in humans and other mammals, antibodies against them are also provided.Type: GrantFiled: March 15, 2006Date of Patent: September 21, 2010Assignee: Yeda Research and Development Company Ltd.Inventors: Daniela Novick, Charles Dinarello, Menachem Rubinstein, Soo Hyun Kim
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Publication number: 20100227782Abstract: A nanostructure, being either an Inorganic Fullerene-like (IF) nanostructure or an Inorganic Nanotube (INT), having the formula A1?x-Bx-chalcognide are described. A being a metal or transition metal or an alloy of metals and/or transition metals, B being a metal or transition metal B different from that of A and x being ?0.3. A process for their manufacture and their use for modifying the electronic character of A-chalcognide are described.Type: ApplicationFiled: March 10, 2010Publication date: September 9, 2010Applicant: YEDA RESEARCH AND DEVELOPMENT COMPANY LTD.Inventors: Reshef TENNE, Francis Leonard Deepak, Hagai Cohen, Sidney R. Cohen, Rita Rosentsveig, Lena Yadgarov
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Publication number: 20100207622Abstract: The present invention discloses a novel magnetic sensor device performing direct magnetic field imaging, comprising a probe having a conical tip portion which is configured as a sensor having two superconductors separated by a thin non-superconducting layer (such as a Josephson junction based sensor), where the non-superconducting layer is located at the apex portion of said conical tip, thereby defining electron tunneling region(s) at said apex portion. The technique of the present invention enables the sensor device to be very small and to be brought very close to the sample surface.Type: ApplicationFiled: June 26, 2008Publication date: August 19, 2010Applicant: YEDA RESEARCH AND DEVELOPMENT COMPANY LTD.Inventors: Amit Finkler, Jens Martin, Yuri Myasoedov, Yehonathan Segev, Amir Yacoby, Eli Zeldov
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Publication number: 20100206298Abstract: A solar receiver is disclosed and includes a housing having a front, radiation-facing, end and a rear end, the front end being formed with a cavity therein. A window is mounted at the front end of the housing and projects inside the cavity. A receiver chamber is defined within the cavity between the housing and the window. The receiver chamber has a working fluid inlet for ingress of working fluid to be heated therewithin, and a working fluid outlet for egress therethrough of the heated fluid. A solar absorber is within the receiver chamber for absorbing the solar radiation and heating the working fluid. The solar absorber includes at least one tubular member configured for maintaining fluid isolation between contents thereof and contents of the receiver chamber. The solar absorber is configured for heating working fluid within the receiver chamber exterior to the tubular member, and working fluid within the tubular member.Type: ApplicationFiled: August 31, 2008Publication date: August 19, 2010Applicant: YEDA RESEARCH AND DEVELOPMENT COMPANY LTD.Inventor: Jacob Karni