Abstract: EPR spectrometer comprising a ferroelectric single crystal resonator, a rectangular channel with holes in its narrow sides for inserting a sample and wires, a permanent magnet with planar poles, and a coil within the channel connected through the holes by the wires with a modulation source and a NMR spectrometer comprising a magnet, a probe with means for transmitting a radio frequency magnetic pulse and detecting NMR signal, and a ferroelectric single crystal resonator. A ferroelectric single crystal consisting essentially of potassium tantalate and the alkali metal substituting from about 1% to 3% of potassium or a group (V) metal substituting in part for tantalum, having cubic form of perovskite crystalline structure, and essentially free of impurities and defects is also disclosed.
Type:
Grant
Filed:
January 7, 2006
Date of Patent:
September 11, 2007
Assignee:
Electroplated Metal Solutions
Inventors:
Ilia Natanovich Geifman, Irina Sergeevna Golovina
Abstract: EPR spectrometer comprising a ferroelectric single crystal resonator, a rectangular channel with holes in its narrow sides for inserting a sample and wires, a permanent magnet with planar poles, and a coil within the channel connected through the holes by the wires with a modulation source and a NMR spectrometer comprising a magnet, a probe with means for transmitting a radio frequency magnetic pulse and detecting NMR signal, and a ferroelectric single crystal resonator. A ferroelectric single crystal consisting essentially of potassium tantalate and the alkali metal substituting from about 1% to 3% of potassium or a group (V) metal substituting in part for tantalum, having cubic form of perovskite crystalline structure, and essentially free of impurities and defects is also disclosed.
Abstract: A ferroelectric single crystal consisting essentially of potassium tantalate and the alkali metal substituting from about 1% to 3% of potassium or a group (V) metal substituting in part for tantalum, having cubic form of perovskite crystalline structure, and essentially free of impurities and defects is produced by growing it from a melt of a potassium precursor, a tantalum oxide and the alkali metal precursor or a group (V) metal oxide. A microwave resonator comprising the single crystal that is useful in a number of RF and EPR applications, an EPR spectrometer comprising a ferroelectric single crystal resonator, a rectangular cavity, a permanent magnet with planar poles, and a radio frequency AC generator with two connecting wires, and a NMR spectrometer comprising a magnet, means for transmitting a radio frequency magnetic pulse and detecting NMR signal, and a ferroelectric single crystal resonator are also disclosed.
Abstract: A tin (IV) oxide nanopowder essentially free of byproducts and consisting of crystalline particles that have rutile crystalline structure is produced in bulk quantities by an inexpensive process of a chemical reaction of either a tin chloride of tin sulfate in an ionic melt of alkali metal nitrates followed by cooling, leaching with distilled water, and a thermal treatment. The nanopowder exhibits electrical conductivity substantially independent from its temperature in wide range of temperatures. Devices and coatings including the nanopowder are also disclosed.
Type:
Grant
Filed:
April 11, 2003
Date of Patent:
September 7, 2004
Assignee:
Electroplated Metal Solutions, Inc.
Inventors:
Arkadiy A. Furman, Aleksander A. Andriiko, Sergiy M. Maliovanyi