Rudolf Kompfner (May 16, 1909 – December 3, 1977) was an Austrian-born inventor, physicist and architect, best known as the inventor of the traveling-wave tube (TWT).

Life

Kompfner was born in Vienna to Jewish parents.[1] He was originally trained as an architect and after receiving his university degree in 1933 he moved to England (due to the rise of anti-Semitism), where he worked as an architect until 1941. He had a strong interest in physics and electronics, and after being briefly detained by the British at the start of World War II he was recruited to work in a secret microwave vacuum tube research program at the University of Birmingham. While there, Kompfner invented the TWT in 1943. After the war he became a British citizen, continued working for the Admiralty as a scientist, and also studied physics at the University of Oxford, receiving his D.Phil. in 1951.[2]

In 1965, he received an honorary doctorate from the Vienna University of Technology.[3]

Patents

1957

  • Traveling Wave Tube Amplifier (issued August 27, 1957)
  • Traveling Wave Tube (issued October 29, 1957)
  • Electron Beam System (issued November 5, 1957)

1958

  • Traveling Wave Tube (issued May 13, 1958)
  • Electron Beam System (issued October 21, 1958)
  • Non-reciprocal Wave Transmission (issued November 11, 1958)

1959

  • Traveling Wave Tube (issued January 6, 1959)
  • Direct View Storage Tube (issued March 24, 1959)
  • Backward Wave Tube (issued June 16, 1959)
  • Traveling Wave Tube (issued July 14, 1959)
  • Apparatus Utilizing Slalom Focusing (issued August 11, 1959)
  • Non-reciprocal Wave Transmission Device (issued November 3, 1959)
  • Backward Wave Amplifier (issued December 8, 1959)

1960

  • Non-reciprocal Elements in Microwave Tubes (issued January 26, 1960)
  • Coaxial Couplers (issued February 16, 1960)
  • Pulse Coincidence Detecting Tube (issued April 19, 1960)
  • Electron Gun for Slalom Focusing Systems (issued May 31, 1960)
  • High Efficiency Velocity Modulation Devices (issued August 16, 1960)
  • Traveling Wave Tube (issued October 4, 1960)

1961

  • Low Noise Amplifier (issued February 14, 1961)
  • High Frequency Amplifier (issued February 21, 1961)
  • Backward Wave Tube (issued May 23, 1961)
  • Elastic Wave Parametric Amplifier (issued December 5, 1961)

1962

  • Parallel High Frequency Amplifier Circuits (issued February 15, 1962)
  • Scanning Horn-Reflector Antenna (issued February 13, 1962)
  • Microwave Filter (issued June 26, 1962)
  • Broadband Cyclotron Wave Parametric Amplifier (issued August 28, 1962)
  • High Frequency Generator (issued December 4, 1962)

1964

  • Traveling Wave Light Modulator (issued May 12, 1964)
  • Artificial Scattering Elements for Use as Reflectors in Space Communication Systems (issued September 29, 1964)
  • Detector for Optical Communication System (issued October 27, 1964)

1965

  • Beam Collector with Auxiliary Collector for Repelled or Secondarily-Emitted Electrons. (Issued 6 /8, 1965)
  • Antenna System (issued July 20, 1965)
  • Sinusoidal-Shaped Lens for Light Wave Communication (issued December 21, 1965)
  • Transmission of Light Waves (issued December 21, 1965)

1966

  • Optical Maser Amplifier (issued May 24, 1966)
  • Antenna System (issued September 13, 1966)
  • Triple Element S-Lens Focusing System (issued November 15, 1966)

1967

  • Spherical Reflector Elastic Wave Delay Device with Planar Transducers (issued May 2, 1967)

1969

  • Intracavity Image Converter (issued July 8, 1969)

1970

  • Receiving Antenna Apparatus Compensated for Antenna Surface Irregularities (issued January 13, 1970)
  • Anti-Doppler Shift Antenna for Mobile Radio (issued March 24, 1970)
  • Multiple-Pass Light-Deflecting Modulator (issued March 31, 1970)
  • Multiple-Pass Light-Deflecting Modulator (issued March 31, 1970)
  • Optical Waveguide (issued April 14, 1970)
  • Time Division Multiplex Optical Transmission System (issued April 14, 1970)
  • Digital Light Deflecting Systems (issued June 2, 1970)
  • Method and Apparatus for Obtaining 3-Dimensional Images from Recorded Standing Patterns (issued July 14, 1970)
  • Optical Heterodyne Receiver with Pulse Widening or Stretching (issued September 22, 1970)
  • Light Communication System with Improved Signal-to-Noise Ratio (issued October 6, 1970)

1977

  • Method of and Apparatus for Acoustic Imaging (issued March 15, 1977)

References

  1. ^ Concise Dictionary of National Biography
  2. ^ IEEE Global History Network (2011). "Rudolf Kompfner". IEEE History Center. Retrieved 14 July 2011.
  3. ^ "TU Wien: Akademische Würdenträger". 21 February 2016. Archived from the original on 21 February 2016. Retrieved 13 December 2020.
Allikas: http://en.wikipedia.org/wiki/Rudolf_Kompfner
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