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Karl Ferdinand Braun

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Karl Ferdinand Braun
Braun in 1909
Born(1850-06-06)6 June 1850
Died20 April 1918(1918-04-20) (aged 67)
Alma materUniversity of Marburg
University of Berlin
Known for
AwardsNobel Prize in Physics (1909)
Scientific career
FieldsPhysics
Institutions
Doctoral advisorAugust Kundt
Georg Hermann Quincke
Doctoral studentsLeonid Isaakovich Mandelshtam
Albert Schweizer
Ferdinand Braun's birthplace in Fulda
24 September 1900: Bargman, Braun and telegraphist at wireless station in Heligoland

Karl Ferdinand Braun (German pronunciation: [ˈfɛʁdinant ˈbʁaʊn] ; 6 June 1850 – 20 April 1918) was a German electrical engineer, inventor, physicist and Nobel laureate in Physics. Braun contributed significantly to the development of the radio, when he invented the phased array antenna in 1905,[1][2] which led to the development of radar, smart antennas, MIMO and the television by building the first cathode-ray tube. Braun also built the first semiconductor.

He shared the 1909 Nobel Prize in Physics with Guglielmo Marconi "for their contributions to the development of wireless telegraphy", was a founder of Telefunken, one of the pioneering communications and television companies,[3] and has been both called the "father of television" (shared with inventors like Paul Gottlieb Nipkow), "great grandfather of every semiconductor ever manufactured"[4] and the co-father of the radio telegraphy, together with Marconi.[5][6][7][8]

Biography

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Braun was born in Fulda, Germany, and educated at the University of Marburg and received a PhD from the University of Berlin in 1872. In 1874, he discovered in Leipzig while he was working there as a secondary school teacher in the Thomasschule, that a point-contact metal–semiconductor junction rectifies alternating current.[9] He became director of the Physical Institute and professor of physics at the University of Strassburg in 1895.

In 1897, he built the first cathode-ray tube (CRT) and cathode-ray tube oscilloscope.[10] The CRT became the cornerstone in developing fully electronic television, being a part of every TV, computer and any other screen set up till the introduction of the LCD screen at the end of the 20th century.[11] It is still mostly called the "Braun tube" in German-speaking countries (Braunsche Röhre) and other countries such as Korea (브라운관: Buraun-kwan) and Japan (ブラウン管: Buraun-kan).

During the development of radio, he also worked on wireless telegraphy. In 1897, Braun joined the line of wireless pioneers.[12][13] His major contributions were the introduction of a closed tuned circuit in the generating part of the transmitter, its separation from the radiating part (the antenna) by means of inductive coupling, and later on the usage of crystals for receiving purposes. Around 1898, he invented a crystal detector [citation needed]. Wireless telegraphy claimed Dr. Braun's full attention in 1898, and for many years after that he applied himself almost exclusively to the task of solving its problems. Dr. Braun had written extensively on wireless subjects and was well known through his many contributions to the Electrician and other scientific journals.[14] In 1899, he would apply for the patent Wireless electro transmission of signals over surfaces.[15] Also in 1899, he is said to have applied for a patent on Electro telegraphy by means of condensers and induction coils [citation needed].

Pioneers working on wireless devices eventually came to a limit of distance they could cover. Connecting the antenna directly to the spark gap produced only a heavily damped pulse train. There were only a few cycles before oscillations ceased. Braun's circuit afforded a much longer sustained oscillation because the energy encountered less losses swinging between coil and Leyden Jars. And by means of inductive antenna coupling the radiator was better matched to the generator. The resultant stronger and less bandwidth consuming signals bridged a much longer distance.

Braun invented the phased array antenna in 1905. He described in his Nobel Prize lecture how he carefully arranged three antennas to transmit a directional signal.[16] This invention led to the development of radar, smart antennas, and MIMO.

Braun's British patent on tuning was used by Marconi in many of his tuning patents. Guglielmo Marconi used Braun's patents (among others). Marconi would later admit to Braun himself that he had "borrowed" portions of Braun's work [citation needed]. In 1909, Braun shared the Nobel Prize for physics with Marconi for "contributions to the development of wireless telegraphy". The prize awarded to Braun in 1909 depicts this design. Braun experimented at first at the University of Strasbourg. Not before long he bridged a distance of 42 km to the city of Mutzig. In spring 1899, Braun, accompanied by his colleagues Cantor and Zenneck, went to Cuxhaven to continue their experiments at the North Sea. On 24 September 1900 radio telegraphy signals were exchanged regularly with the island of Heligoland over a distance of 62 km. Light vessels in the river Elbe and a coast station at Cuxhaven commenced a regular radio telegraph service.

Braun went to the United States at the beginning of World War I (before the U.S. had entered the war) to be a witness for the defense in a lawsuit regarding a patent claim by the Marconi Corporation against the wireless station of Telefunken at Sayville, New York. After the US entered the war, Braun was detained, but could move freely within Brooklyn, New York. Braun died in his house in Brooklyn, before the war ended in 1918.[17][18]

SID Karl Ferdinand Braun Prize

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In 1987 the Society for Information Display created the Karl Ferdinand Braun Prize, awarded for an outstanding technical achievement in display technology.[19]

Patents

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See also

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References

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Footnotes
  1. ^ "Ferdinand Braun: Father of the Phased Array & CRT - Mini-Circuits Blog". blog.minicircuits.com. 11 March 2024.
  2. ^ Heald, George; McKean, John; Pizzo, Roberto (2018). Low Frequency Radio Astronomy and the LOFAR Observatory. Springer. p. 5. ISBN 9783319234342.
  3. ^ "The Scientist who World War I wrote out of history". 2 March 2014.
  4. ^ "The Scientist who World War I wrote out of history". 2 March 2014.
  5. ^ "Mit Nobelpreisträger Karl Ferdinand Braun begann das Fernsehzeitalter". Die Welt. 1 January 1970. Retrieved 9 June 2022.
  6. ^ Peter Russer (2009). "Ferdinand Braun — A pioneer in wireless technology and electronics". 2009 European Microwave Conference (EuMC). pp. 547–554. doi:10.23919/EUMC.2009.5296324. ISBN 978-1-4244-4748-0. S2CID 34763002.
  7. ^ Rundfunk, Bayerischer (20 April 2018). "Karl Ferdinand Braun: Der Wegbereiter des Fernsehens | BR Wissen". Br.de. Retrieved 7 June 2022.
  8. ^ "Siegeszug des Fernsehens: Vor 125 Jahre kam die Braunsche Röhre zur Welt". Geo.de. 15 February 2022. Retrieved 9 June 2022.
  9. ^ Braun, F. (1874), "Ueber die Stromleitung durch Schwefelmetalle" [On current conduction through metal sulfides], Annalen der Physik und Chemie (in German), 153 (4): 556–563, Bibcode:1875AnP...229..556B, doi:10.1002/andp.18752291207
  10. ^ Ferdinand Braun (1897) "Ueber ein Verfahren zur Demonstration und zum Studium des zeitlichen Verlaufs variabler Ströme" (On a process for the display and study of the course in time of variable currents), Annalen der Physik und Chemie, 3rd series, 60 : 552–559.
  11. ^ "The Simple Invention That Made Television Possible".
  12. ^ In Germany he was called the "wireless wizard" and was credited there with having done more than any one else to perfect control of the new system of communication.
  13. ^ Patent DRP 111788. 1989.
  14. ^ The Wireless Age, Volume 5. Page 709 – 713.
  15. ^ The Electrical engineer, Volume 23. Page 159
  16. ^ "Karl Ferdinand Braun – Nobel Lecture: Electrical Oscillations and Wireless Telegraphy" p. 239. Nobelprize.org. Nobel Media AB 2013. Web. 28 September 2013.
  17. ^ Peter Russer. "Ferdinand Braun – A pioneer in wireless technology and electronics" (PDF). Emeriti-of-excellence.tum.de. Retrieved 9 June 2022.
  18. ^ "Ferdinand Braun | German physicist". Britannica.com. 2 June 2023.
  19. ^ "Karl Ferdinand Braun Prize". Society for Information Display. 2012. Retrieved 9 June 2022.
General
  • K.F. Braun: "On the current conduction in metal sulphides (title translated from German into English)", Ann. Phys. Chem., 153 (1874), 556. (In German) An English translation can be found in Semiconductor Devices: Pioneering Papers, edited by S.M. Sze, World Scientific, Singapore, 1991, pp. 377–380.
  • Keller, Peter A.: The Cathode-Ray Tube: Technology, History, and Applications. New York: Palisades Press, 1991. ISBN 0-9631559-0-3.
  • Keller, Peter A.: "The 100th Anniversary of the Cathode-Ray Tube," Information Display, Vol. 13, No. 10, 1997, pp. 28–32.
  • F. Kurylo, Ferdinand Braun Leben und Wirken des Erfinders der Braunschen Röhre Nobelpreis 1909, Munich: Moos Verlag, 1965. (In German)
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