Patents by Inventor Ilya Zwieback
Ilya Zwieback 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: 20100139552Abstract: A crucible has a first resistance heater is disposed in spaced relation above the top of the crucible and a second resistance heater with a first resistive section disposed in spaced relation beneath the bottom of the crucible and with a second resistive section disposed in spaced relation around the outside of the side of the crucible. The crucible is charged with a seed crystal at the top of an interior of the crucible and a source material in the interior of the crucible in spaced relation between the seed crystal and the bottom of the crucible. Electrical power of a sufficient extent is applied to the first and second resistance heaters to create in the interior of the crucible a temperature gradient of sufficient temperature to cause the source material to sublimate and condense on the seed crystal thereby forming a growing crystal.Type: ApplicationFiled: December 8, 2009Publication date: June 10, 2010Applicant: II-IV INCORPORATEDInventors: Varatharajan Rengarajan, Bryan K. Brouhard, Michael C. Nolan, Ilya Zwieback
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Publication number: 20100061914Abstract: In the growth of a SiC boule, a growth guide is provided inside of a growth crucible that is charged with SiC source material at a bottom of the crucible and a SiC seed crystal at a top of the crucible. The growth guide has an inner layer that defines at least part of an opening in the growth guide and an outer layer that supports the inner layer in the crucible. The opening faces the source material with the seed crystal positioned at an end of the opening opposite the source material. The inner layer is formed from a first material having a higher thermal conductivity than the second, different material forming the outer layer. The source material is sublimation grown on the seed crystal in the growth crucible via the opening in the growth guide to thereby form the SiC boule on the seed crystal.Type: ApplicationFiled: January 15, 2008Publication date: March 11, 2010Applicant: II-VI INCORPORATEDInventors: Ilya Zwieback, Avinash K. Gupta, Edward Semenas, Thomas E. Anderson
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Publication number: 20100018455Abstract: A physical vapor transport system includes a growth chamber charged with source material and a seed crystal in spaced relation, and at least one capsule having at least one capillary extending between an interior thereof and an exterior thereof, wherein the interior of the capsule is charged with a dopant. Each capsule is installed in the growth chamber. Through a growth reaction carried out in the growth chamber following installation of each capsule therein, a crystal is formed on the seed crystal using the source material, wherein the formed crystal is doped with the dopant.Type: ApplicationFiled: October 5, 2009Publication date: January 28, 2010Applicant: II-VI INCORPORATEDInventors: Avinash K. Gupta, Edward Semenas, Ilya Zwieback, Donovan L. Barrett, Andrew E. Souzis
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Patent number: 7608524Abstract: In a physical vapor transport method and system, a growth chamber charged with source material and a seed crystal in spaced relation is provided. At least one capsule having at least one capillary extending between an interior thereof and an exterior thereof, wherein the interior of the capsule is charged with a dopant, is also provided. Each capsule is installed in the growth chamber. Through a growth reaction carried out in the growth chamber following installation of each capsule therein, a crystal is formed on the seed crystal using the source material, wherein the formed crystal is doped with the dopant.Type: GrantFiled: April 17, 2006Date of Patent: October 27, 2009Assignee: II-VI IncorporatedInventors: Avinash K. Gupta, Edward Semenas, Ilya Zwieback, Donovan L. Barrett, Andrew E. Souzis
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Publication number: 20090169459Abstract: In method of crystal growth, an interior of a crystal growth chamber (2) is heated to a first temperature in the presence of a first vacuum pressure whereupon at least one gas absorbed in a material (4) disposed inside the chamber is degassed therefrom. The interior of the chamber is then exposed to an inert gas at a second, higher temperature in the presence of a second vacuum pressure that is at a higher pressure than the first vacuum pressure. The inert gas pressure in the chamber is then reduced to a third vacuum pressure that is between the first and second vacuum pressures and the temperature inside the chamber is lowered to a third temperature that is between the first and second temperatures, whereupon source material (10) inside the chamber vaporizes and deposits on a seed crystal (12) inside the chamber.Type: ApplicationFiled: September 27, 2006Publication date: July 2, 2009Applicant: II-VI INCORPORATEDInventors: Ilya Zwieback, Donovan L. Barrett, Avinash K. Gupta
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Patent number: 7547360Abstract: In a method of SiC single crystal growth, a SiC single crystal seed and polycrystalline SiC source material are provided in spaced relation inside of a graphite growth crucible along with at least one compound capable of forming SiO gas in the growth crucible. The growth crucible is heated whereupon the gaseous SiO forms and reacts with carbon in the growth crucible thereby avoiding the introduction of carbon into the SiC single crystal before and during the growth thereof and the SiC source material vaporizes and is transported via a temperature gradient in the growth crucible to the seed crystal where it precipitates and forms a SiC single crystal.Type: GrantFiled: September 27, 2007Date of Patent: June 16, 2009Assignee: II-VI IncorporatedInventors: Avinash K. Gupta, Edward Semenas, Ilya Zwieback
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Publication number: 20090053125Abstract: A SiC single crystal is grown by physical vapor transport (PVT) in a graphite growth chamber, the interior of which is charged with a SiC source material and a SiC single crystal seed in spaced relation. During PVT growth of the SiC single crystal, the growth chamber further includes Ce. The SiC single crystal grows on the SiC single crystal seed in response to heating the interior of the growth chamber to a growth temperature and in the presence of a temperature gradient in the growth chamber whereupon the temperature of the SiC single crystal seed is lower than the temperature of the SiC source material. The Ce can include either Ce silicide or Ce carbide.Type: ApplicationFiled: August 19, 2008Publication date: February 26, 2009Applicant: Il-VI IncorporatedInventors: Avinash K. Gupta, Thomas E. Anderson, Ping Wu, Ilya Zwieback
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Publication number: 20080190355Abstract: The invention relates to substrates of semi-insulating silicon carbide used for semiconductor devices and a method for making the same. The substrates have a resistivity above 106 Ohm-cm, and preferably above 108 Ohm-cm, and most preferably above 109 Ohm-cm, and a capacitance below 5 pF/mm2 and preferably below 1 pF/mm2. The electrical properties of the substrates are controlled by a small amount of added deep level impurity, large enough in concentration to dominate the electrical behavior, but small enough to avoid structural defects. The substrates have concentrations of unintentional background impurities, including shallow donors and acceptors, purposely reduced to below 5·1016 cm?3, and preferably to below 1·1016 cm?3, and the concentration of deep level impurity is higher, and preferably at least two times higher, than the difference between the concentrations of shallow acceptors and shallow donors.Type: ApplicationFiled: July 6, 2005Publication date: August 14, 2008Applicant: II-VI INCORPORATEDInventors: Jihong Chen, Ilya Zwieback, Avinash K. Gupta, Donovan L. Barrett, Richard H. Hopkins, Edward Semenas, Thomas A. Anderson, Andrew E. Souzis
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Publication number: 20080115719Abstract: In a method of SiC single crystal growth, a SiC single crystal seed and polycrystalline SiC source material are provided in spaced relation inside of a graphite growth crucible along with at least one compound capable of forming SiO gas in the growth crucible. The growth crucible is heated whereupon the gaseous SiO forms and reacts with carbon in the growth crucible thereby avoiding the introduction of carbon into the SiC single crystal before and during the growth thereof and the SiC source material vaporizes and is transported via a temperature gradient in the growth crucible to the seed crystal where it precipitates and forms a SiC single crystal.Type: ApplicationFiled: September 27, 2007Publication date: May 22, 2008Applicant: II-VI IncorporatedInventors: Avinash K. Gupta, Edward Semenas, Ilya Zwieback
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Publication number: 20080072817Abstract: In a crystal growth method, an enclosed growth crucible is provided inside of a growth chamber. The growth crucible has polycrystalline source material and a seed crystal disposed in spaced relation therein. The interior of the growth crucible is heated whereupon a temperature gradient forms between the source material and the seed crystal. The temperature gradient is sufficient to cause the source material to sublimate and be transported to the seed crystal where it precipitates on the seed crystal. A gas mixture is caused to flow into the growth crucible and between the polycrystalline source material and an interior surface of the growth crucible. The gas mixture reacts with an unwanted element in the body of the growth crucible to form a gaseous byproduct which then flows through the body of the growth crucible to the exterior of the growth crucible.Type: ApplicationFiled: September 11, 2007Publication date: March 27, 2008Applicant: II-VI IncorporatedInventors: Ilya Zwieback, Thomas Anderson, Avinash Gupta
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Publication number: 20060243984Abstract: In a physical vapor transport method and system, a growth chamber charged with source material and a seed crystal in spaced relation is provided. At least one capsule having at least one capillary extending between an interior thereof and an exterior thereof, wherein the interior of the capsule is charged with a dopant, is also provided. Each capsule is installed in the growth chamber. Through a growth reaction carried out in the growth chamber following installation of each capsule therein, a crystal is formed on the seed crystal using the source material, wherein the formed crystal is doped with the dopant.Type: ApplicationFiled: April 17, 2006Publication date: November 2, 2006Applicant: II-VI IncorporatedInventors: Avinash Gupta, Edward Semenas, Ilya Zwieback, Donovan Barrett, Andrew Souzis
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Patent number: 6452189Abstract: Single crystals of (NH4)2Ni(SO4)2.6H2O represent an excellent material for filtering UV light and in an enclosed system will not deteriorate at temperatures as high as 125° C. They are particularly useful in solar-blind optical systems and sensing devices, which seek to identify the presence of UV light sources in the UV missile warning band.Type: GrantFiled: January 20, 2000Date of Patent: September 17, 2002Assignee: InradInventors: Shai Livneh, Sergey Selin, Ilya Zwieback, Warren Ruderman
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Patent number: 6388260Abstract: Crystals of lithium tetraborate or alpha-barium borate had been found to be neutron detecting materials. The crystals are prepared using known crystal growing techniques, wherein the process does not include the common practice of using a fluxing agent, such as sodium oxide or sodium fluoride, to reduce the melting temperature of the crystalline compound. Crystals prepared by this method can be sliced into thin single or polycrystalline wafers, or ground to a powder and prepared as a sintered compact or a print paste, and then configured with appropriate electronic hardware, in order to function as neutron detectors.Type: GrantFiled: March 6, 2000Date of Patent: May 14, 2002Assignee: Sandia CorporationInventors: F. Patrick Doty, Ilya Zwieback, Warren Ruderman
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Patent number: 6369392Abstract: A crystal having good optical transmission between 260 nm and 280 nm and strongly absorbing at 285 nm and higher, which is nonhydroscopic and stable at temperatures to 250° C. An example of such a crystal is Cerium doped YLiF4. These properties make YLiF4 crystals doped with Ce3+ excellent materials for use as UV filters in the missile early warning spectral band. Optical devices including missile detection systems are also provided.Type: GrantFiled: January 10, 2000Date of Patent: April 9, 2002Assignee: InradInventors: Warren Ruderman, Ilya Zwieback, Shai Livneh