51
Miller Charles Walter, Saxon Godfrey: Improvements relating to x-ray generators. Vickers Electrical, November 28, 1956: GB762375-A (3 worldwide citation)

762,375. X-ray tubes: particle accelerators. METROPOLITAN-VICKERS ELECTRICAL CO., Ltd. Oct. 27, 1954 [Oct. 27, 1953], No. 29684/53. Class 39(1). An X-ray generator has a collimator 5 on the X-ray side of the target plate 4, and another collimator 14 on the electron beam side of the target; collimato ...


52
Andrew J Jarabak, Wallace H Sunderman, Edward G Mendola, Ralph W Kalkbrenner: Process for making a superconducting magnet for particle accelerators. Westinghouse Electric, Michael G Panian, February 18, 1992: US05088184 (2 worldwide citation)

An automated facility for the large-scale production of superconducting magnets for use in a particle accelerator. Components of the automated facility include: a superconducting coil winding machine; a coil form and cure press apparatus; a coil collaring press; collar pack assembly apparatus; yoke ...


53
Andrew J Jarabak, Wallace H Sunderman, Edward G Mendola: Apparatus and process for making a superconducting magnet for particle accelerators. Westinghouse Electric, Michael G Panian, December 17, 1991: US05072516 (2 worldwide citation)

An automated facility for the large-scale production of superconducting magnets for use in a particle accelerator. Components of the automated facility include: a superconducting coil winding machine; a coil form and cure press apparatus; a coil collaring press; collar pack assembly apparatus; yoke ...


54
Willi Brüchle, Georg Fehrenbacher, Torsten Radon, Frank Gutermuth: Radiation shielding arrangement. Gesellschaft fur Schwerionenforschung mbH, Ohlandt Greeley Ruggiero & Perle L, August 9, 2005: US06927407 (2 worldwide citation)

A radiation shielding arrangement for shielding high-energy neutron radiation and gamma radiation from high-energy particle accelerators or storage rings includes a shielding element made of water-containing material, for example with chemically bound water or water of crystallization, in particular ...


55
Steven E Summer: Method for implementing radiation hardened, power efficient, non isolated low output voltage DC/DC converters with non-radiation hardened components. Feldman Law Group P C, Stephen E Feldman, December 22, 2009: US07635970 (2 worldwide citation)

A method of producing an economical DC/DC converter that efficiently produces a relatively low output voltage and operates in a high ionizing radiation dose environment such as found in spacecraft and particle accelerator applications. That is, the converter comprises two P-channel FETs, a switching ...


56
Ray M Springfield, Robert M Wheat Jr: High voltage pulse conditioning. The United States of America represented by the United States Department of Energy, Milton D Wyrick, Paul D Gaetjens, William R Moser, January 30, 1990: US04897556 (2 worldwide citation)

Apparatus for conditioning high voltage pulses from particle accelerators in order to shorten the rise times of the pulses. Flashover switches in the cathode stalk of the transmission line hold off conduction for a determinable period of time, reflecting the early portion of the pulses. Diodes upstr ...


57
Heidi Baumgartner, Timothy William Koeth: B-K electrode for fixed-frequency particle accelerators. Koeth Law P L L C, Michelle M Koeth Esq, June 26, 2012: US08207656 (2 worldwide citation)

An electrode for fixed-frequency particle accelerators geometrically compensating for relativistic mass increase by placing the acceleration gap at the location of the particle at each peak of the accelerating electric field.


58
Hochoertler Guenter Dr, Huber Raimund: Non-magnetic, corrosion resistant alloy for welded parts, and so produced parts for use at cryogenic temperatures. Boehler Edelstahl, December 17, 1997: EP0812927-A2 (2 worldwide citation)

An austenitic corrosion resistant alloy, with good weldability, high toughness, high strength and stable non-magnetic properties at below 5 K, has a composition comprising (wt.%): <= 0.029 carbon; 0.20-0.79, preferably 0.3-0.5 silicon; 11.10-12.90, preferably 11.8-12.4 manganese; <= 0.029 phosphorus ...


59
Bernard Jacquot: Coaxial electromagnetic wave injection and electron cyclotron resonance ion source. Commissariat a l Energie Atomique, September 27, 1994: US05350974 (2 worldwide citation)

The present invention relates to an electron cyclotron resonance (ECR) ion source comprising an enclosure (1) containing an electron and ion plasma and a magnetic structure (11) surrounding the enclosure and that produces therein two radial and axial magnetic fields to ensure a confinement in the en ...


60
Improvements in or relating to travelling wave tubes. Csf, August 1, 1956: GB753999-A (2 worldwide citation)

753,999. Travelling-wave tubes; particle accelerators. COMPAGNIE GENERALE DE TELEGRAPHIE SANS FIL. March 1, 1954 Feb. 27, 1953], No. 6009/54. Class 39 (1). In a travelling-wave tube the delay line comprises a first portion coupled to the input in which the input wave is amplified and a second portio ...



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