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Vacuum-surface flashover switch with cantilever conductors

IPC분류정보
국가/구분 United States(US) Patent 등록
국제특허분류(IPC7판)
  • H05H-009/00
출원번호 US-0094507 (1998-06-10)
발명자 / 주소
  • Caporaso George J.
  • Sampayan Stephen E.
  • Kirbie Hugh C.
출원인 / 주소
  • The United States of America as represented by the United States Department of Energy
대리인 / 주소
    Daubenspeck
인용정보 피인용 횟수 : 79  인용 특허 : 3

초록

A dielectric-wall linear accelerator is improved by a high-voltage, fast rise-time switch that includes a pair of electrodes between which are laminated alternating layers of isolated conductors and insulators. A high voltage is placed between the electrodes sufficient to stress the voltage breakdow

대표청구항

[ The invention claimed is:] [1.]1. A vacuum-surface flashover switch, comprising:a pair of electrodes providing for the application of a high voltage potential;an insulator assembly disposed between the pair of electrodes and having at least one surface between the pair of electrodes exposed to a v

이 특허에 인용된 특허 (3)

  1. Caporaso George J. ; Sampayan Stephen E. ; Kirbie Hugh C., Dielectric-wall linear accelerator with a high voltage fast rise time switch that includes a pair of electrodes between.
  2. Springfield Ray M. (Sante Fe NM) Wheat ; Jr. Robert M. (Los Alamos NM), High voltage pulse conditioning.
  3. Carder Bruce M., High-gradient compact linear accelerator.

이 특허를 인용한 특허 (79)

  1. Zwart, Gerrit Townsend; Cooley, James, Active return system.
  2. Zwart, Gerrit Townsend; Gall, Kenneth P.; Van der Laan, Jan; Rosenthal, Stanley; Busky, Michael; O'Neal, III, Charles D.; Franzen, Ken Yoshiki, Adjusting energy of a particle beam.
  3. Zwart, Gerrit Townsend; Gall, Kenneth P.; Van der Laan, Jan; Rosenthal, Stanley; Busky, Michael; O'Neal, III, Charles D; Franzen, Ken Yoshiki, Adjusting energy of a particle beam.
  4. Stark, James M.; Rosenthal, Stanley J.; Wagner, Miles S.; Ahearn, Michael J., Applying a particle beam to a patient.
  5. Stark, James M.; Rosenthal, Stanley J.; Wagner, Miles S.; Ahearn, Michael J., Applying a particle beam to a patient.
  6. Gall, Kenneth, Charged particle radiation therapy.
  7. Gall, Kenneth; Rosenthal, Stanley; Row, Gordon; Ahearn, Michael, Charged particle radiation therapy.
  8. Jones, Mark R.; Robinson, Mark; Franzen, Ken Yoshiki, Coil positioning system.
  9. Zwart, Gerrit Townsend; Jones, Mark R.; Cooley, James, Collimator and energy degrader.
  10. Caporaso, George J.; Chen, Yu-Jiuan; Hawkins, Steven A.; Sampayan, Stephen E.; Paul, Arthur C., Compact accelerator for medical therapy.
  11. Gall, Kenneth P.; Rosenthal, Stanley; Sobczynski, Thomas C.; Molzahn, Adam C., Control system for a particle accelerator.
  12. Gall, Kenneth P.; Rosenthal, Stanley; Sobczynski, Thomas C.; Molzahn, Adam C., Control system for a particle accelerator.
  13. Gall, Kenneth P.; Zwart, Gerrit Townsend; Van der Laan, Jan; Molzahn, Adam C.; O'Neal, III, Charles D.; Sobczynski, Thomas C.; Cooley, James, Controlling intensity of a particle beam.
  14. Gall, Kenneth P.; Rosenthal, Stanley J.; Sobczynski, Thomas C.; Molzahn, Adam C.; O'Neal, Charles D.; Cooley, James, Controlling particle therapy.
  15. Gall, Kenneth P.; Rosenthal, Stanley; Sobczynski, Thomas C.; Molzahn, Adam C.; O'Neal, III, Charles D.; Cooley, James, Controlling particle therapy.
  16. Gorrell, Jonathan; Davidson, Mark; Tokarz, Jean, Coupled nano-resonating energy emitting structures.
  17. Gorrell, Jonathan; Davidson, Mark, Coupling a signal through a window.
  18. Gorrell, Jonathan; Davidson, Mark; Maines, Michael E., Coupling energy in a plasmon wave to an electron beam.
  19. Gorrell, Jonathan; Davidson, Mark; Maines, Michael E., Coupling light of light emitting resonator to waveguide.
  20. Gorrell, Jonathan; Davis, Henry, Data on light bulb.
  21. Buttrill, Sidney E., Depressed anode with plasmon-enabled devices such as ultra-small resonant structures.
  22. Gorrell, Jonathan; Davidson, Mark, Detecting plasmons using a metallurgical junction.
  23. Gorrell, Jonathan, Diamond field emission tip and a method of formation.
  24. Gorrell, Jonathan, Electro-optical switching system and method.
  25. Gorrell, Jonathan, Electro-photographic devices incorporating ultra-small resonant structures.
  26. Gorrell, Jonathan; Davidson, Mark, Electron accelerator for ultra-small resonant structures.
  27. Gorrell, Jonathan; Davidson, Mark; Maines, Michael E, Electron beam induced resonance.
  28. Gorrell, Jonathan; Davidson, Mark; Maines, Michael E, Electron beam induced resonance.
  29. Gorrell,Jonathan; Davidson,Mark; Maines,Michael E., Focal plane array incorporating ultra-small resonant structures.
  30. Gall, Kenneth P.; Zwart, Gerrit Townsend; Van der Laan, Jan; O'Neal, III, Charles D.; Franzen, Ken Yoshiki, Focusing a particle beam.
  31. Zwart, Gerrit Townsend; Gall, Kenneth P.; Van der Laan, Jan; O'Neal, III, Charles D.; Franzen, Ken Yoshiki, Focusing a particle beam using magnetic field flutter.
  32. Gorrell, Jonathan; Davidson, Mark, Free electron oscillator.
  33. Gorrell, Jonathan; Davidson, Mark, Heterodyne receiver using resonant structures.
  34. Werne, Roger W.; Sampayan, Stephen; Harris, John Richardson, High voltage switches having one or more floating conductor layers.
  35. Chou, Weiren; Wildman, David; Takagi, Akira, Inductive load broadband RF system.
  36. Gall, Kenneth; Rosenthal, Stanley; Row, Gordon; Ahearn, Michael, Inner gantry.
  37. Gorrell, Jonathan; Davidson, Mark; Maines, Michael E., Integrated filter in antenna-based detector.
  38. Wang, Pingshan; Li, Chaojiang, Integrated picosecond pulse generator circuit.
  39. Gorrell, Jonathan; Davidson, Mark; Tokarz, Jean; Gasparov, Lev, Integration of electromagnetic detector on integrated chip.
  40. Gorrell, Jonathan, Integration of vacuum microelectronic device with integrated circuit.
  41. Gall, Kenneth P.; Zwart, Gerrit Townsend, Interrupted particle source.
  42. Gall, Kenneth; Zwart, Gerrit Townsend, Interrupted particle source.
  43. Gorrell, Jonathan; Davidson, Mark; Maines, Michael E., Low terahertz source and detector.
  44. Gall, Kenneth P.; Zwart, Gerrit Townsend; Van Der Laan, Jan; Franzen, Ken Yoshiki, Magnetic field regenerator.
  45. Zwart, Gerrit Townsend; Van der Laan, Jan; Gall, Kenneth P.; Sobczynski, Stanislaw P., Magnetic shims to alter magnetic fields.
  46. O'Neal, III, Charles D.; Molzahn, Adam C.; Vincent, John J., Matching a resonant frequency of a resonant cavity to a frequency of an input voltage.
  47. Corey L. Larsen, Method and apparatus for PCB array with compensated signal propagation.
  48. Larsen, Corey L., Method and apparatus for PCB array with compensated signal propagation.
  49. Gorrell, Jonathan; Davidson, Mark; Tokarz, Jean; Maines, Michael E.; Trucco, Andres; Hart, Paul, Methods of producing structures for electron beam induced resonance using plating and/or etching.
  50. Gorrell, Jonathan; Davidson, Mark; Maines, Michael E., Micro free electron laser (FEL).
  51. Maines, Michael; Bradman, Narada; Davidson, Mark, Microwave coupled excitation of solid state resonant arrays.
  52. Zwart, Gerrit Townsend; O'Neal, III, Charles D.; Franzen, Ken Yoshiki, Particle accelerator that produces charged particles having variable energies.
  53. Zwart, Gerrit Townsend; Cooley, James; Franzen, Ken Yoshiki; Jones, Mark R.; Li, Tao; Busky, Michael, Particle beam scanning.
  54. Bouchet, Lionel G.; Rakes, Richard Bruce, Patient positioning system.
  55. Stygar, William A.; Cuneo, Michael E.; Headley, Daniel I.; Ives, Harry C.; Ives, legal representative, Berry Cottrell; Leeper, Ramon J.; Mazarakis, Michael G.; Olson, Craig L.; Porter, John L.; Wagoner, Tim C., Petawatt pulsed-power accelerator.
  56. Gorrell, Jonathan; Tokarz, Jean; Maines, Michael E.; Davidson, Mark, Plasmon wave propagation devices and methods.
  57. Gorrell,Jonathan; Trucco,Andres, Plated multi-faceted reflector.
  58. Sliski, Alan; Gall, Kenneth, Programmable radio frequency waveform generator for a synchrocyclotron.
  59. Sliski, Alan; Gall, Kenneth, Programmable radio frequency waveform generator for a synchrocyclotron.
  60. Gorrell, Jonathan; Davidson, Mark; Tokarz, Jean; Gasparov, Lev, Receiver array using shared electron beam.
  61. Gorrell, Jonathan; Davidson, Mark; Tokarz, Jean; Gasparov, Lev, Resonant detector for optical signals.
  62. Gorrell,Jonathan; Davidson,Mark; Maines,Michael E, Resonant structure-based display.
  63. Gorrell, Jonathan; Davidson, Mark; Hart, Paul, Resonant structures and methods for encoding signals into surface plasmons.
  64. O'Neal, III, Charles D.; Molzahn, Adam C., Scanning system for a particle therapy system.
  65. Gorrell, Jonathan; Davidson, Mark, Selectable frequency EMR emitter.
  66. Gorrell, Jonathan; Davidson, Mark, Selectable frequency light emitter.
  67. Gorrell, Jonathan; Davidson, Mark; Maines, Michael E, Selectable frequency light emitter.
  68. Caporaso, George J.; Nelson, Scott D.; Poole, Brian R., Sequentially pulsed traveling wave accelerator.
  69. Gorrell, Jonathan, Shielding of integrated circuit package with high-permeability magnetic material.
  70. Gorrell, Jonathan; Davidson, Mark; Tokarz, Jean; Trucco, Andres, Single layer construction for ultra small devices.
  71. Gorrell,Jonathan; Davidson,Mark, Source of x-rays.
  72. Gorrell, Jonathan; Davidson, Mark, Stray charged particle removal device.
  73. Gorrell, Jonathan; Davidson, Mark; Gasparov, Lev V.; Maines, Michael E.; Hart, Paul, Structures and methods for coupling energy from an electromagnetic wave.
  74. Gorrell, Jonathan; Davidson, Mark; Maines, Michael E, Switching micro-resonant structures by modulating a beam of charged particles.
  75. Gorrell, Jonathan; Davidson, Mark; Maines, Michael E, Switching micro-resonant structures using at least one director.
  76. Gorrell, Jonathan, Top metal layer shield for ultra-small resonant structures.
  77. Gorrell, Jonathan, Transmission of data between microchips using a particle beam.
  78. Gorrell, Jonathan; Davidson, Mark; Maines, Michael E.; Hart, Paul, Ultra-small resonating charged particle beam modulator.
  79. Caporaso, George James; Chen, Yu-Jiuan; Nelson, Scott; Sullivan, Jim; Hawkins, Steven A., Virtual gap dielectric wall accelerator.
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