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Paul Langevin

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Title: Paul Langevin  
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Subject: Eliane Montel, Solvay Conference, Irène Joliot-Curie, Luce Langevin-Dubus, Criticism of the theory of relativity
Collection: 1872 Births, 1946 Deaths, Alumni of the University of Cambridge, Burials at the Panthéon, Paris, Collège De France Faculty, Corresponding Members of the Russian Academy of Sciences (1917–25), Corresponding Members of the Ussr Academy of Sciences, École Normale Supérieure Alumni, Espci Paristech Alumni, Espci Paristech Faculty, Foreign Members of the Royal Society, French Activists, French Communist Party Members, French Physicists, Honorary Members of the Ussr Academy of Sciences, Members of the French Academy of Sciences, Recipients of the Copley Medal, University of Paris Alumni
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Paul Langevin

Paul Langevin
Born (1872-01-23)23 January 1872
Paris, France
Died 19 December 1946(1946-12-19) (aged 74)
Paris, France
Residence France
Nationality French
Fields Physics
Institutions University of Cambridge
Collège de France
Alma mater ESPCI
École Normale Supérieure
Doctoral advisors Pierre Curie
Joseph John Thomson
Gabriel Lippmann
Doctoral students Irène Joliot-Curie
Louis de Broglie
Léon Brillouin
Known for Langevin equation
Langevin dynamics
Langevin function
Twin paradox
Notable awards Hughes Medal (1915)
Copley Medal (1940)
Fellow of the Royal Society[1]

Paul Langevin 6 February 1934 far right riots. Langevin was also president of the Human Rights League (LDH) from 1944 to 1946 – he had just recently joined the French Communist Party. He is entombed at the Panthéon. Being a public opponent against fascism in the 1930s resulted in his arrest and consequently he was held under house arrest by the Vichy government for most of the war. Paul Langevin, previously a doctoral student of Pierre Curie and later a lover of Marie Curie, is also famous for his two US patents with Constantin Chilowsky in 1916 and 1917 involving ultrasonic submarine detection.[3]


  • Life 1
  • Submarine detection 2
  • See also 3
  • Bibliography 4
  • References 5
  • Sources 6
  • Further reading 7
  • External links 8


Langevin was born in Paris, and studied at the École de Physique et Chimie[4] and the École Normale Supérieure. He then went to Cambridge University and studied in the Cavendish Laboratory under Sir J. J. Thomson.[5] Langevin returned to the Sorbonne and obtained his Ph.D. from Pierre Curie in 1902. In 1904 he became professor of physics at the Collège de France. In 1926 he became director of the École de Physique et Chimie (later became École supérieure de physique et de chimie industrielles de la Ville de Paris, ESPCI ParisTech), where he had been educated. He was elected, in 1934, to the Académie des sciences.

Albert Einstein, Paul Ehrenfest, Paul Langevin, Heike Kamerlingh Onnes, and Pierre Weiss at Ehrenfest's home in Leiden

Langevin is noted for his work on paramagnetism and diamagnetism, and devised the modern interpretation of this phenomenon in terms of spins of electrons within atoms. His most famous work was in the use of ultrasound using Pierre Curie's piezoelectric effect. During World War I, he began working on the use of these sounds to detect submarines through echo location.[3] However the war was over by the time it was operational. During his career, Paul Langevin also did much to spread the theory of relativity in France and created what is now called the twin paradox.

In 1910 he reportedly had an affair with the then-widowed Marie Curie;[6][7][8][9] today, their respective grandson and granddaughter are married to one another: Hélène Langevin-Joliot and Michel Langevin. He was also noted for being an outspoken opponent of Nazism, and was removed from his post by the Vichy government following the occupation of the country by Nazi Germany. He was later restored to his position in 1944. He died in Paris in 1946, two years after living to see the Liberation of Paris. He is buried near several other prominent French scientists in the Pantheon in Paris.

His daughter, Hélène Solomon-Langevin, was arrested for Resistance activity and survived several concentration camps. She was on the same convoy of female political prisoners as Marie-Claude Vaillant-Couturier and Charlotte Delbo.

Pioneers in the development and application of piezoelectric transducers for the goal of submarine detection (a) Paul Langevin, (b) Robert William Boyle, (c) Cross-sectional view of a form of quartz transducer designed by Boyle in 1917, as recorded in the BIR (Board of Invention and Research) document 38164/17

Submarine detection

In 1916 and 1917, Paul Langevin and Chilowsky filed two US patents disclosing the first ultrasonic submarine detector using an electrostatic method (singing condenser) for one patent and thin quartz crystals for the other. The amount of time taken by the signal to travel to the enemy submarine and echo back to the ship on which the device was mounted was used to calculate the distance under water.

In 1916 Lord Ernest Rutherford, working in the UK with his former McGill University PhD student Robert William Boyle, revealed that they were developing a quartz piezoelectric detector for submarine detection. Langevin's successful application of the use of piezoelectricity in the generation and detection of ultrasound waves was followed by further development.[10]

See also


  • The spirit of scientific teaching (1904)
  • The Relations of physics of electrons to other branches of Science (1906)
  • On the theory of brownian motion (1908)
  • The evolution of space and time (1911)
  • Time, space and causality in modern physics (1911)
  • The relativity principle (1922)
  • The general aspect of relativity theory (1922)
  • The educative meaning of history of sciences (1926)
  • Fascism and democracy (1926)
  • The steps of scientific thought (1927)
  • Social functions of scientific investigation (1928)
  • New mechanics and chemy (1928)
  • Actual orientation of physics (1930)
  • Einstein's works and astronomy (1931)
  • Contribution of physical sciences to general culture (1931)
  • Is there a determinism crisis? (1931)
  • Science and secularism (1931)
  • The problem of general culture (1932)
  • Teaching in China (1933)
  • The notion of corpuscle and atom (1933)
  • The human value of science (1934)
  • Statistics and determinism (1935)
  • Space and time in an euclidean universe (1935)
  • Pure science and technics (1936)
  • Science and life (1937)
  • Positivist and realistic currents in the philosophy of physics (1939)
  • Modern physics and determinism (1939)
  • Science as a moral and social evolution factor (1939)
  • Science and freedom (1939)
  • Culture and humanities (1944)
  • The transmutations era (1945)
  • Mecanist materialism and dialectic materialism (1945)
  • Science and Peace (1946)


  1. ^ a b  
  • ^ "Langevin": entry in the The American Heritage Science Dictionary, 2002.
  • ^ a b Manbachi, A.; Cobbold, R. S. C. (2011). "Development and application of piezoelectric materials for ultrasound generation and detection". Ultrasound 19 (4): 187.  
  • ^ ESPCI ParisTech Alumni 1891.
  • ^ He may not have been formally entered as a member of the university, as he is not found in Venn's Alumni Cantabrigienses
  • ^ Reid, Robert (1978) [1974] Marie Curie, pp. 44, 90.
  • ^ Graham, Loren and Kantor, Jean Michael (2009) Naming Infinity. Belknap Press. ISBN 0674032934. p. 43.
  • ^ Françoise Giroud (Davis, Lydia trans.), Marie Curie: A life, Holmes and Meier, 1986, ISBN 0-8419-0977-6.
  • ^ Susan, Quinn (1995) Marie Curie: A Life, Heinemann. ISBN 0-434-60503-4.
  • ^ Arshadi, R.; Cobbold, R. S. C. (2007). "A pioneer in the development of modern ultrasound: Robert William Boyle (1883–1955)". Ultrasound in Medicine & Biology 33: 3.  
  • Sources

    • Asimov's Biographical Encyclopedia of Science and Technology, Isaac Asimov, Doubleday & Co., Inc., 1972, ISBN 0-385-17771-2.
    • References to the affair with Marie Curie is found in Françoise Giroud (Davis, Lydia trans.), Marie Curie: A life, Holmes and Meier, 1986, ISBN 0-8419-0977-6, and in Quinn Susan, Marie Curie: A Life, Heinemann, 1995, ISBN 0-434-60503-4.
    • Wolfram research biographical entry by Michel Barran.
    • Annotated bibliography for Niels Bohr from the Alsos Digital Library for Nuclear Issues

    Further reading

    • Luis Navarro, Josep Olivella, Langevin and the theory of magnetism, Épistémologiques, 2002
    • Denis Brian, The Curies, a Biography of the Most Controversial Family in Science, John Wiley & Sons, Inc. (UK) 2005.
    • Julien Bok and Catherine Kounelis (2007). "Paul Langevin (1872–1946) – From Montmartre to the Panthéon: The Paris journey of an exceptional physicist" (PDF). Europhysics News 38 (1). 
    • Adrienne R. Weill-Brunschvicg. "Langevin, Paul - Complete Dictionary of Scientific Biography, 2008". 

    External links

    • Media related to at Wikimedia Commons
    • Works related to author:Paul Langevin at Wikisource
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