Patents by Inventor Steven Falabella
Steven Falabella 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: 20240080965Abstract: A method for producing a neutrons includes triggering a raising or a lowering of a temperature of a pyroelectric crystal of less than about 40° C. to produce a voltage of negative polarity of at least ?100 keV on a surface of a deuterated or tritiated target coupled thereto. A deuterium ion source is pulsed to produce a deuterium ion beam. The accelerating of the deuterium ion beam is achieved by accelerating voltage of the pyroelectric crystal toward the deuterated or tritiated target to produce neutrons. Furthermore, the pyroelectric crystal, the deuterated or tritiated target, and the deuterium ion source are coupled to a common support. The method also includes throwing the common support housing the pyroelectric crystal, the deuterated or tritiated target, and the deuterium ion source near an unknown threat for identification thereof.Type: ApplicationFiled: October 3, 2023Publication date: March 7, 2024Inventors: Vincent Tang, Glenn A. Meyer, Steven Falabella, Gary Guethlein, Brian Rusnak, Stephen Sampayan, Christopher Spadaccini, Li-Fang Wang, John Harris, Jeff Morse
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Patent number: 11839016Abstract: A method for producing a neutrons includes producing a voltage of negative polarity of at least ?100 keV on a surface of a deuterated or tritiated target in response to a temperature change of a pyroelectric crystal of less than about 40° C., the pyroelectric crystal having the deuterated or tritiated target coupled thereto, pulsing a deuterium ion source to produce a deuterium ion beam, accelerating the deuterium ion beam to the deuterated or tritiated target, and directing the ion beam onto the deuterated or tritiated target to make neutrons using at least one element of the following: a voltage of the pyroelectric crystal and a high gradient insulator (HGI) surrounding the pyroelectric crystal. The accelerating of the deuterium ion beam is achieved by using an ion accelerating mechanism comprising a pyroelectric stack accelerator having a first thermal altering mechanism for changing a temperature of the pyroelectric stack accelerator.Type: GrantFiled: December 15, 2020Date of Patent: December 5, 2023Assignee: Lawrence Livermore National Security, LLCInventors: Vincent Tang, Glenn A. Meyer, Steven Falabella, Gary Guethlein, Brian Rusnak, Stephen Sampayan, Christopher Spadaccini, Li-Fang Wang, John Harris, Jeff Morse
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Publication number: 20210227678Abstract: A method for producing a neutrons includes producing a voltage of negative polarity of at least ?100 keV on a surface of a deuterated or tritiated target in response to a temperature change of a pyroelectric crystal of less than about 40° C., the pyroelectric crystal having the deuterated or tritiated target coupled thereto, pulsing a deuterium ion source to produce a deuterium ion beam, accelerating the deuterium ion beam to the deuterated or tritiated target, and directing the ion beam onto the deuterated or tritiated target to make neutrons using at least one element of the following: a voltage of the pyroelectric crystal and a high gradient insulator (HGI) surrounding the pyroelectric crystal. The accelerating of the deuterium ion beam is achieved by using an ion accelerating mechanism comprising a pyroelectric stack accelerator having a first thermal altering mechanism for changing a temperature of the pyroelectric stack accelerator.Type: ApplicationFiled: December 15, 2020Publication date: July 22, 2021Inventors: Vincent Tang, Glenn A. Meyer, Steven Falabella, Gary Guethlein, Brian Rusnak, Stephen Sampayan, Christopher Spadaccini, Li-Fang Wang, John Harris, Jeff Morse
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Patent number: 11019717Abstract: According to one embodiment, a method for producing a directed neutron beam includes producing a voltage of negative polarity of at least ?100 keV on a surface of a deuterated or tritiated target in response to a temperature change of a pyroelectric crystal of less than about 40° C., the pyroelectric crystal having the deuterated or tritiated target coupled thereto, pulsing a deuterium ion source to produce a deuterium ion beam, accelerating the deuterium ion beam to the deuterated or tritiated target to produce a neutron beam, and directing the ion beam onto the deuterated or tritiated target to make neutrons using at least one of a voltage of the pyroelectric crystal, and a high gradient insulator (HGI) surrounding the pyroelectric crystal. The directionality of the neutron beam is controlled by changing the accelerating voltage of the system. Other methods are presented as well.Type: GrantFiled: September 28, 2016Date of Patent: May 25, 2021Assignee: Lawrence Livermore National Security, LLC.Inventors: Vincent Tang, Glenn A. Meyer, Steven Falabella, Gary Guethlein, Brian Rusnak, Stephen Sampayan, Christopher M. Spadaccini, Li-Fang Wang, John Harris, Jeff Morse
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Patent number: 9723704Abstract: According to one embodiment, an apparatus includes a pyroelectric crystal, a deuterated or tritiated target, an ion source, and a common support coupled to the pyroelectric crystal, the deuterated or tritiated target, and the ion source. In another embodiment, a method includes producing a voltage of negative polarity on a surface of a deuterated or tritiated target in response to a temperature change of a pyroelectric crystal, pulsing a deuterium ion source to produce a deuterium ion beam, accelerating the deuterium ion beam to the deuterated or tritiated target to produce a neutron beam, and directing the ion beam onto the deuterated or tritiated target to make neutrons using a voltage of the pyroelectric crystal and/or an HGI surrounding the pyroelectric crystal. The directionality of the neutron beam is controlled by changing the accelerating voltage of the system. Other apparatuses and methods are presented as well.Type: GrantFiled: August 12, 2009Date of Patent: August 1, 2017Assignee: Lawrence Livermore National Security, LLCInventors: Vincent Tang, Glenn A. Meyer, Steven Falabella, Gary Guethlein, Brian Rusnak, Stephen Sampayan, Christopher M. Spadaccini, Li-Fang Wang, John Harris, Jeff Morse
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Publication number: 20170040075Abstract: According to one embodiment, a method for producing a directed neutron beam includes producing a voltage of negative polarity of at least ?100 keV on a surface of a deuterated or tritiated target in response to a temperature change of a pyroelectric crystal of less than about 40° C., the pyroelectric crystal having the deuterated or tritiated target coupled thereto, pulsing a deuterium ion source to produce a deuterium ion beam, accelerating the deuterium ion beam to the deuterated or tritiated target to produce a neutron beam, and directing the ion beam onto the deuterated or tritiated target to make neutrons using at least one of a voltage of the pyroelectric crystal, and a high gradient insulator (HGI) surrounding the pyroelectric crystal. The directionality of the neutron beam is controlled by changing the accelerating voltage of the system. Other methods are presented as well.Type: ApplicationFiled: September 28, 2016Publication date: February 9, 2017Inventors: Vincent Tang, Glenn A. Meyer, Steven Falabella, Gary Guethlein, Brian Rusnak, Stephen Sampayan, Christopher M. Spadaccini, Li-Fang Wang, John Harris, Jeff Morse
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Patent number: 8749951Abstract: A two-phase mixed media insulator having a dielectric fluid filling the interstices between macro-sized dielectric beads packed into a confined volume, so that the packed dielectric beads inhibit electro-hydrodynamically driven current flows of the dielectric liquid and thereby increase the resistivity and breakdown strength of the two-phase insulator over the dielectric liquid alone. In addition, an electrical apparatus incorporates the two-phase mixed media insulator to insulate between electrical components of different electrical potentials. And a method of electrically insulating between electrical components of different electrical potentials fills a confined volume between the electrical components with the two-phase dielectric composite, so that the macro dielectric beads are packed in the confined volume and interstices formed between the macro dielectric beads are filled with the dielectric liquid.Type: GrantFiled: March 26, 2010Date of Patent: June 10, 2014Inventors: Steven Falabella, Glenn A. Meyer, Vincent Tang, Gary Guethlein
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Publication number: 20120106690Abstract: According to one embodiment, an apparatus includes a pyroelectric crystal, a deuterated or tritiated target, an ion source, and a common support coupled to the pyroelectric crystal, the deuterated or tritiated target, and the ion source. In another embodiment, a method includes producing a voltage of negative polarity on a surface of a deuterated or tritiated target in response to a temperature change of a pyroelectric crystal, pulsing a deuterium ion source to produce a deuterium ion beam, accelerating the deuterium ion beam to the deuterated or tritiated target to produce a neutron beam, and directing the ion beam onto the deuterated or tritiated target to make neutrons using a voltage of the pyroelectric crystal and/or an HGI surrounding the pyroelectric crystal. The directionality of the neutron beam is controlled by changing the accelerating voltage of the system. Other apparatuses and methods are presented as well.Type: ApplicationFiled: August 12, 2009Publication date: May 3, 2012Inventors: Vincent Tang, Glenn A. Meyer, Steven Falabella, Gary Guethlein, Brian Rusnak, Stephen Sampayan, Christopher M. Spadaccini, Li-Fang Wang, John Harris, Jeff Morse
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Publication number: 20100246093Abstract: A two-phase mixed media insulator having a dielectric fluid filling the interstices between macro-sized dielectric beads packed into a confined volume, so that the packed dielectric beads inhibit electro-hydrodynamically driven current flows of the dielectric liquid and thereby increase the resistivity and breakdown strength of the two-phase insulator over the dielectric liquid alone. In addition, an electrical apparatus incorporates the two-phase mixed media insulator to insulate between electrical components of different electrical potentials. And a method of electrically insulating between electrical components of different electrical potentials fills a confined volume between the electrical components with the two-phase dielectric composite, so that the macro dielectric beads are packed in the confined volume and interstices formed between the macro dielectric beads are filled with the dielectric liquid.Type: ApplicationFiled: March 26, 2010Publication date: September 30, 2010Inventors: Steven Falabella, Glenn A. Meyer, Vincent Tang, Gary Guethlein
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Publication number: 20100078198Abstract: A high gradient multilayer vacuum insulator (HGI) with increased resistance to vacuum arcing to improve electrical strength. In an exemplary embodiment, the HGI includes a plurality of conductive and dielectric layers stacked in alternating arrangement so that the edges of the layers together form a vacuum-insulator interface and the stack has an overall length LS. The dielectric layers each have a thickness I that is less than It I t = ( E M E BD ) 2 ? L S where It is the transitional dielectric layer thickness below which failure of the vacuum insulator is by vacuum arcing, EBD is the breakdown field required to initiate vacuum arcing across one of said dielectric layers, and EM is the breakdown field required to initiate surface flashover across a monolithic dielectric material of length LS.Type: ApplicationFiled: August 7, 2009Publication date: April 1, 2010Inventors: John Richardson Harris, David M. Sandes, Steven A. Hawkins, Steven Falabella
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Patent number: 6204595Abstract: An electron emitter comprising a textured silicon wafer overcoated with a thin (200 Å) layer of nitrogen-doped, amorphous-diamond (a:D-N), which lowers the field below 20 volts/micrometer have been demonstrated using this emitter compared to uncoated or diamond coated emitters wherein the emission is at fields of nearly 60 volts/micrometer. The silicon/nitrogen-doped, amorphous-diamond (Si/a:D-N) emitter may be produced by overcoating a textured silicon wafer with amorphous-diamond (a:D) in a nitrogen atmosphere using a filtered cathodic-arc system. The enhanced performance of the Si/a:D-N emitter lowers the voltages required to the point where field-emission displays are practical. Thus, this emitter can be used, for example, in flat-panel emission displays (FEDs), and cold-cathode vacuum electronics.Type: GrantFiled: July 10, 1995Date of Patent: March 20, 2001Assignee: The Regents of the University of CaliforniaInventor: Steven Falabella
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Patent number: 5763087Abstract: Amorphous diamond films having a significant reduction in intrinsic stress are prepared by biasing a substrate to be coated and depositing carbon ions thereon under controlled temperature conditions.Type: GrantFiled: September 11, 1995Date of Patent: June 9, 1998Assignee: Regents of the University of CaliforniaInventor: Steven Falabella
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Patent number: 5474816Abstract: Amorphous diamond films having a significant reduction in intrinsic stress are prepared by biasing a substrate to be coated and depositing carbon ions thereon under controlled temperature conditions.Type: GrantFiled: April 16, 1993Date of Patent: December 12, 1995Assignee: The Regents of the University of CaliforniaInventor: Steven Falabella
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Patent number: 5468363Abstract: A magnetic-cusp for a cathodic-arc source wherein the arc is confined to the desired cathode surface, provides a current path for electrons from the cathode to the anode, and utilizes electric and magnetic fields to guide ions from the cathode to a point of use, such as substrates to be coated. The magnetic-cusp insures arc stability by an easy magnetic path from anode to cathode, while the straight-through arrangement leads to high ion transmission.Type: GrantFiled: April 25, 1994Date of Patent: November 21, 1995Assignee: Regents of the University of CaliforniaInventor: Steven Falabella
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Patent number: 5282944Abstract: A cylindrically symmetric arc source to produce a ring of ions which leave the surface of the arc target radially and are reflected by electrostatic fields present in the source to a point of use, such as a part to be coated. An array of electrically isolated rings positioned in the source serves the dual purpose of minimizing bouncing of macroparticles and providing electrical insulation to maximize the electric field gradients within the source. The source also includes a series of baffles which function as a filtering or trapping mechanism for any macroparticles.Type: GrantFiled: July 30, 1992Date of Patent: February 1, 1994Assignee: The United States of America as represented by the United States Department of EnergyInventors: David M. Sanders, Steven Falabella
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Patent number: 5279723Abstract: A continuous, cathodic arc ion source coupled to a macro-particle filter capable of separation or elimination of macro-particles from the ion flux produced by cathodic arc discharge. The ion source employs an axial magnetic field on a cathode (target) having tapered sides to confine the arc, thereby providing high target material utilization. A bent magnetic field is used to guide the metal ions from the target to the part to be coated. The macro-particle filter consists of two straight solenoids, end to end, but placed at 45.degree. to one another, which prevents line-of-sight from the arc spot on the target to the parts to be coated, yet provides a path for ions and electrons to flow, and includes a series of baffles for trapping the macro-particles.Type: GrantFiled: July 30, 1992Date of Patent: January 18, 1994Assignee: as represented by the United States Department of EnergyInventors: Steven Falabella, David M. Sanders