Édouard Branly
Édouard Eugène Désiré Branly | |
---|---|
Born | |
Died | 24 March 1940 Paris | (aged 95)
Édouard Eugène Désiré Branly (23 October 1844 – 24 March 1940) was a French inventor,
Biography
He was born on 23 October 1844 and died on 24 March 1940.
Coherer
The coherer became the basis for radio reception, and remained in widespread use for about ten years, until about 1907. British radio pioneer Oliver Lodge made the coherer into a practical receiver by adding a "decoherer" which tapped the coherer after each reception to dislodge clumped filings, thus restoring the device's sensitivity. It was further developed by Guglielmo Marconi, then replaced about 1907 by crystal detectors.
In 1890, Branly[5][6][7] demonstrated what he later called the "radio-conductor",[8] which Lodge in 1893 named the coherer, the first sensitive device for detecting radio waves.[9] Shortly after the experiments of Hertz, Dr. Branly discovered that loose metal filings, which in a normal state have a high electrical resistance, lose this resistance in the presence of electric oscillations and become practically conductors of electricity. This Branly showed by placing metal filings in a glass box or tube, and making them part of an ordinary electric circuit. According to the common explanation, when electric waves are set up in the neighborhood of this circuit, electromotive forces are generated in it which appear to bring the filings more closely together, that is, to cohere, and thus their electrical resistance decreases, from which cause this piece of apparatus was termed by Sir Oliver Lodge a coherer.[10] Hence the receiving instrument, which may be a telegraph relay, that normally would not indicate any sign of current from the small battery, can be operated when electric oscillations are set up.[11] Prof. Branly further found that when the filings had once cohered they retained their low resistance until shaken apart, for instance, by tapping on the tube.[12]
In
Branly found that, upon examination of the conditions necessary to produce the phenomena, the following data:[15]
- The circuit need not be closed to produce the result.
- The passage of an induced current in the body produces a similar effect to that of a spark at a distance.
- An induction-coil with two equal lengths of wire was used, a current is sent through the primary while the secondary forms part of a circuit containing the tube with filings and a galvanometer.[16] The two induced currents caused the resistance of the filings to vary.[17]
- When working with continuous currents the passage of a strong current lowers the resistance of the body for feeble currents.[18]
Summing up, he stated that in all these tests the use of ebonite plates covered with copper or mixtures of copper and tin was less satisfactory than the use of filings; with the plates he was unable to obtain the initial resistance of the body after the action of the spark or of the current, while with the tubes and filings the resistance could be brought back to its normal value by striking a few sharp blows on the support of the tube.[15]
Honours
Branly was nominated thrice for a Nobel Prize, but never received it. In 1911, he was elected to the French Academy of Sciences, winning over his rival Marie Curie. Both had opponents in the Academy: she a female and he a devout catholic, who had left Sorbonne for a chair in the Catholic University of Paris. Branly eventually won the election by two votes. In 1936 he was elected to the Pontifical Academy of Sciences.[19]
Branly was named as Marconi's inspiration during the first radio communication across the English Channel, when Marconi's message was: "Mr. Marconi sends to Mr. Branly his regards over the Channel through the wireless telegraph, this nice achievement being partly the result of Mr. Branly's remarkable work."[4]
Branly's discovery of radioconduction was named an
Legacy
The quai Branly – a road that runs alongside the River
Branly is also commemorated by a technical High School (lycée) in Châtellerault, a commune in the Vienne department in the Poitou-Charentes region.[21]
See also
- Musée Édouard Branly, which preserves his laboratory
- Radio: History of radio, Invention of radio
- People: Alexander Stepanovich Popov, Karl Ferdinand Braun
- U.S. patent 796,800 : "Receiver for use in wireless telegraphy" Edouard Branly, 1905
References
- ISSN 0362-4331. Retrieved 2021-12-11.
- ^ "Edouard Branly | French engineer | Britannica". www.britannica.com. Retrieved 2021-12-11.
- ^ Funerals, politics, and memory in modern France, 1789-1996, Chapter 12, Avner Ben-Amos, accessed 14 May 2011
- ^ a b Édouard Branly, the Coherer, and the Branly effect - History of Communications, Jean-Marie Dilhac, Communications Magazine, IEEE, Volume: 47 Issue: 9, September 2009, (quoting J. Terrat-Branly, Mon père, Édouard Branly, Corrêa, 1941) accessed 10 May 2011
- ^ Variations of Conductivity under Electrical Influences, By Édouard Branly. Minutes of proceedings of the Institution of Civil Engineers, Volume 103 By Institution of Civil Engineers (Great Britain) Page 481 (Contained in, Comptes Rendus de l'Académie des Sciences de Paris, vol. cix., 1890, p. 785.)
- ^ "On the Changes in Resistance of Bodies under Different Electrical Conditions". By E. Branly. Minutes of proceedings, Volume 104, Institution of Civil Engineers (Great Britain). 1891. Page 416 (Contained in, Comptes Rendus de l'Académie des Sciences, Paris, 1891, vol. exit., p. 90.)
- ^ "Experiments on the conductivity of insulating bodies", by M. Édouard Branly, M.D. Philosophical magazine. Taylor & Francis., 1892. Page 530 (Contained in, Comptes Rendus de l' Académie des Sciences, 24 Nov. 1890 and 12 Jan. 1891, also, Bulletin de la Societi international d'electriciens, no. 78, May 1891)
- ^ "Increase of Resistance of Radio-conductors". E. Branly. (Comptes Rendus, 130. pp. 1068-1071, April 17, 1900.)
- ^ "Wireless Telegraphy". Modern Engineering Practice. Vol. VII. American School of Correspondence. 1903. p. 10.
- ^ although Dr. Branly himself termed it a radio-conductor.
- ^ Maver's wireless telegraphy: theory and practice By William Maver (jr.)
- ^ United States Naval Institute (1902). Proceedings: Volume 28, Part 2. Page 443.
- ^ By forcing two Metal Balls together while one of the Metal Balls has hand-oil and/or an-impurity on One Of The Balls "will create the same effect as A Cats Whisker
- ^ Branly's filings used, were iron, aluminium, antimony, cadmium, bismuth, &c
- ^ a b c Minutes of proceedings, Volume 104 By Institution of Civil Engineers (Great Britain)
- ^ Before closing the circuit a test is made to see that the current at make and break gives the same deviation on the galvanometer. The filings are then placed in the secondary circuit, and the primary opened and closed at regular intervals
- ^ These deviations were obtained with an induction coil without core. The results obtained with a core were almost identical.
- ^ A circuit was used consisting of a battery, the body to be tested, and a galvanometer; the electromotive force of the battery used was 1 volt at first, then 100 volts, and then again 1 volt.
- ^ "Edouard Branly".
- ^ Édouard Branly (1890). "Milestones:Discovery of Radioconduction". IEEE Global History Network. IEEE. Retrieved 28 July 2011.
- ^ Lycée Édouard Branly, accessed 10 May 2011
External links and resources
Media related to Édouard Branly at Wikimedia Commons
- Eugenii Katz, "Edouard Eugène Désiré Branly". The history of electrochemistry, electricity and electronics; Biosensors & Bioelectronics.
- "Édouard Branly". Robert Appleton Company, The Catholic Encyclopedia, Volume II, 1907.
- "Edouard Eugène Désiré Branly"". Adventures in Cybersound.
- Édouard Branly at Find a Grave