Lev Davidovich Landau (Russian: Лев Дави́дович Ланда́у; 22 January 1908 – 1 April 1968) was a Soviet physicist who made fundamental contributions to many areas of theoretical physics.[1][2][3] He was considered as one of the last scientists who were universally well-versed and made seminal contributions to all branches of physics.[4] He is credited with laying the foundations of twentieth century condensed matter physics,[5] and is also considered arguably the greatest Soviet theoretical physicist of the twentieth century.[6]
Landau was born on 22 January 1908 to Jewish parents[11][12][13][14] in Baku, the Russian Empire, in what is now Azerbaijan. Landau's father, David Lvovich Landau, was an engineer with the local oil industry, and his mother, Lyubov Veniaminovna Garkavi-Landau, was a doctor. Both came to Baku from Mogilev and both graduated the Mogilev gymnasium.[15][16] He learned differential calculus at age 12 and integral calculus at age 13. Landau graduated in 1920 at age 13 from gymnasium. His parents considered him too young to attend university, so for a year he attended the Baku Economical Technical School. In 1922, at age 14, he matriculated at the Baku State University, studying in two departments simultaneously: the Departments of Physics and Mathematics, and the Department of Chemistry. Subsequently, he ceased studying chemistry, but remained interested in the field throughout his life.
Leningrad and Europe
In 1924, he moved to the main centre of Soviet physics at the time: the Physics Department of Leningrad State University, where he dedicated himself to the study of theoretical physics, graduating in 1927. Landau subsequently enrolled for post-graduate studies at the Leningrad Physico-Technical Institute where he eventually received a doctorate in Physical and Mathematical Sciences in 1934.[17] Landau got his first chance to travel abroad during the period 1929–1931, on a Soviet government—People's Commissariat for Education—travelling fellowship supplemented by a Rockefeller Foundation fellowship. By that time he was fluent in German and French and could communicate in English.[18] He later improved his English and learned Danish.[19]
After brief stays in Göttingen and Leipzig, he went to Copenhagen on 8 April 1930 to work at the Niels Bohr's Institute for Theoretical Physics. He stayed there until 3 May of the same year. After the visit, Landau always considered himself a pupil of Niels Bohr and Landau's approach to physics was greatly influenced by Bohr. After his stay in Copenhagen, he visited Cambridge (mid-1930), where he worked with Paul Dirac,[20] Copenhagen (September to November 1930),[21] and Zürich (December 1930 to January 1931), where he worked with Wolfgang Pauli.[20] From Zürich Landau went back to Copenhagen for the third time[22] and stayed there from 25 February until 19 March 1931 before returning to Leningrad the same year.[23]
National Scientific Center Kharkiv Institute of Physics and Technology, Kharkiv
Between 1932 and 1937, Landau headed the Department of Theoretical Physics at the National Scientific Center Kharkiv Institute of Physics and Technology, and he lectured at the University of Kharkiv and the Kharkiv Polytechnic Institute. Apart from his theoretical accomplishments, Landau was the principal founder of a great tradition of theoretical physics in Kharkiv, Ukraine, sometimes referred to as the "Landau school". In Kharkiv, he and his friend and former student, Evgeny Lifshitz, began writing the Course of Theoretical Physics, ten volumes that together span the whole of the subject and are still widely used as graduate-level physics texts. During the Great Purge, Landau was investigated within the UPTI Affair in Kharkiv, but he managed to leave for Moscow to take up a new post.[3]
Landau developed a famous comprehensive exam called the "Theoretical Minimum" which students were expected to pass before admission to the school. The exam covered all aspects of theoretical physics, and between 1934 and 1961 only 43 candidates passed, but those who did later became quite notable theoretical physicists.[24][25]
In 1932, Landau computed the Chandrasekhar limit;[26] however, he did not apply it to white dwarf stars.[27]
On 27 April 1938, Landau was arrested for a leaflet which compared Stalinism to German Nazism and Italian Fascism.[3][29] He was held in the NKVD's Lubyanka prison until his release, on 29 April 1939, after Pyotr Kapitsa (an experimental low-temperature physicist and the founder and head of the institute) and Bohr wrote letters to Joseph Stalin.[30][31] Kapitsa personally vouched for Landau's behaviour and threatened to quit the institute if Landau was not released.[32] After his release, Landau discovered how to explain Kapitsa's superfluidity using sound waves, or phonons, and a new excitation called a roton.[3]
Landau led a team of mathematicians supporting Soviet atomic and hydrogen bomb development. He calculated the dynamics of the first Soviet thermonuclear bomb, including predicting the yield. For this work Landau received the Stalin Prize in 1949 and 1953, and was awarded the title "Hero of Socialist Labour" in 1954.[3]
Landau received the 1962 Nobel Prize in Physics for his development of a mathematical theory of superfluidity that accounts for the properties of liquid helium II at a temperature below 2.17 K (−270.98 °C)."[33]
Personal life and views
In 1937, Landau married Kora T. Drobanzeva from Kharkiv.[34] Their son Igor (1946–2011) became a theoretical physicist. Lev Landau believed in "free love" rather than monogamy and encouraged his wife and his students to practise "free love". However, his wife was not enthusiastic.[3]
Landau is generally described as an atheist,[35][36][37] although when Soviet filmmaker Andrei Tarkovsky asked Landau whether he believed in the existence of God, Landau pondered the matter in silence for three minutes before responding, "I think so."[38] In 1957, a lengthy report to the CPSU Central Committee by the KGB recorded Landau's views on the 1956 Hungarian Uprising, Vladimir Lenin and what he termed "red fascism".[39]Hendrik Casimir recalls him as a passionate communist, emboldened by his revolutionary ideology. Landau's drive in establishing Soviet science was in part due to his devotion to socialism. In 1935 he published a piece titled “Bourgeoisie and Contemporary Physics” in the Soviet newspaper Izvestia in which he criticized religious superstition and the dominance of capital, which he saw as bourgeois tendencies, citing “unprecedented opportunities for the development of physics in our country, provided by the Party and the government.” [3]
Last years
On 7 January 1962, Landau's car collided with an oncoming truck. He was severely injured and spent two months in a coma. Although Landau recovered in many ways, his scientific creativity was destroyed,[28] and he never returned fully to scientific work. His injuries prevented him from accepting the 1962 Nobel Prize in Physics in person.[40]
Throughout his life Landau was known for his sharp humour, as illustrated by the following dialogue with a psychologist, Alexander Luria, who tried to test for possible brain damage while Landau was recovering from the car crash:[19][41]
Luria: "Please draw me a circle"
Landau draws a cross
Luria: "Hm, now draw me a cross"
Landau draws a circle
Luria: "Landau, why don't you do what I ask?"
Landau: "If I did, you might come to think I've become mentally retarded".
In June 1965, Lev Landau and Evsei Liberman published a letter in the New York Times, stating that as Soviet Jews they opposed U.S. intervention on behalf of the Student Struggle for Soviet Jewry.[42] However, there are doubts that Landau authored this letter.[43]
Death
Landau died on 1 April 1968, aged 60, from complications of the injuries sustained in the car accident six years earlier. He was buried at the Novodevichy Cemetery.[44]
On 22 January 2019, Google celebrated what would have been Landau's 111th birthday with a Google Doodle.[46]
The Landau-Spitzer Award (American Physical Society), which recognizes outstanding contributions to plasma physics and European-United States collaboration, is named in-part in his honor.[47]
The Russian television film My Husband — the Genius (translation of the Russian title Мой муж — гений) released in 2008 tells the biography of Landau (played by Daniil Spivakovsky), mostly focusing on his private life. It was generally panned by critics. People who had personally met Landau, including famous Russian scientist Vitaly Ginzburg, said that the film was not only terrible, but also false in historical facts.
Another film about Landau, Dau, is directed by Ilya Khrzhanovsky with non-professional actor Teodor Currentzis (an orchestra conductor) as Landau. Dau was a common nickname of Lev Landau.[54] The film was part of the multidisciplinary art project DAU.[55][56]
Works
Landau wrote his first paper On the derivation of Klein–Fock equation, co-authored with Dmitri Ivanenko in 1926, when he was 18 years old. His last paper titled Fundamental problems appeared in 1960 in an edited version of tributes to Wolfgang Pauli. A complete list of Landau's works appeared in 1998 in the Russian journal Physics-Uspekhi.[57] Landau would allow himself to be listed as a co-author of a journal article on two conditions: 1) he brought up the idea of the work, partly or entirely, and 2) he performed at least some calculations presented in the article. Consequently, he removed his name from numerous publications of his students where his contribution was less significant.[54]
V. B. Berestetskii; E. M. Lifshitz; L. P. Pitaevskii (1982). Quantum Electrodynamics. Vol. 4 (2nd ed.). Butterworth–Heinemann. ISBN978-0-7506-3371-0.
L. D. Landau; E. M. Lifshitz (1980). Statistical Physics, Part 1. Vol. 5 (3rd ed.). Butterworth–Heinemann. ISBN978-0-7506-3372-7.
L. D. Landau; E. M. Lifshitz (1987). Fluid Mechanics. Vol. 6 (2nd ed.). Butterworth–Heinemann. ISBN978-0-08-033933-7.
L. D. Landau; E. M. Lifshitz (1986). Theory of Elasticity. Vol. 7 (3rd ed.). Butterworth–Heinemann. ISBN978-0-7506-2633-0.
L. D. Landau; E. M. Lifshitz; L. P. Pitaevskii (1984). Electrodynamics of Continuous Media. Vol. 8 (2nd ed.). Butterworth–Heinemann. ISBN978-0-7506-2634-7.
L. P. Pitaevskii; E. M. Lifshitz (1980). Statistical Physics, Part 2. Vol. 9 (1st ed.). Butterworth–Heinemann. ISBN978-0-7506-2636-1.
L. P. Pitaevskii; E. M. Lifshitz (1981). Physical Kinetics. Vol. 10 (1st ed.). Pergamon Press. ISBN978-0-7506-2635-4.
Landau and Lifshitz suggested in the third volume of the Course of Theoretical Physics that the then-standard periodic table had a mistake in it, and that lutetium should be regarded as a d-block rather than an f-block element. Their suggestion was fully vindicated by later findings,[58][59][60][61] and in 1988 was endorsed by a report of the International Union of Pure and Applied Chemistry (IUPAC).[62]
L. D. Landau; A. I. Kitaigorodsky (1978). Physics for Everyone. Mir Publishers Moscow. in 4 volumes: volume 1 Physical bodiesISBN978-0-82-851716-4; volume 2 MoleculesISBN978-0-82-851725-6; volume 3 Electrons and volume 4 Photons and nuclei; vols. 3 & 4 by Kitaigorodsky alone
^McCauley, Martin (1997). Who's Who in Russia Since 1900. Routledge. p. 128. Landau, Lev Davydovich (1908-68), a brilliant Soviet theoretical physicist, who was born into a Jewish family in Baku and graduated from Leningrad State University in 1927.
^Zubok, Vladislav (2012). "Soviet Intellectuals after Stalin's Death and Their Visions of the Cold War's End". In Bozo, Frédéric; Rey, Marie-Pierre; Rother, Bernd; Ludlow, N. Piers (eds.). Visions of the End of the Cold War in Europe, 1945-1990. Berghahn Books. p. 78.
^Lev Landau (1927). "Das Dämpfungsproblem in der Wellenmechanik (The Damping Problem in Wave Mechanics)". Zeitschrift für Physik. 45 (5–6): 430–441. Bibcode:1927ZPhy...45..430L. doi:10.1007/bf01343064. S2CID125732617. English translation reprinted in: D. Ter Haar, ed. (1965). Collected papers of L.D. Landau. Oxford: Pergamon Press.
^Shifman, M., ed. (2013). Under the Spell of Landau: When Theoretical Physics was Shaping Destinies. World Scientific. doi:10.1142/8641. ISBN978-981-4436-56-4.
^Martin Gilbert, The Jews in the Twentieth Century: An Illustrated History, Schocken Books, 2001, ISBN0805241906 p. 284
^Frontiers of physics: proceedings of the Landau Memorial Conference, Tel Aviv, Israel, 6–10 June 1988, (Pergamon Press, 1990) ISBN0080369391, pp. 13–14
^Edward Teller, Memoirs: A Twentieth Century Journey In Science And Politics, Basic Books 2002, ISBN0738207780 p. 124
^ abMehra, Jagdish (2001) The Golden Age of Theoretical Physics, Boxed Set of 2 Volumes, World Scientific, p. 952. ISBN9810243421.
^During this period Landau visitied Copenhagen three times: 8 April to 3 May 1930, from 20 September to 22 November 1930, and from 25 February to 19 March 1931 (see Landau Lev biography – MacTutor History of Mathematics).
^Sykes, J. B. (2013) Landau: The Physicist and the Man: Recollections of L. D. Landau, Elsevier, p. 81. ISBN9781483286884.
^Haensel, P.; Potekhin, A. Y. and Yakovlev, D. G. (2007) Neutron Stars 1: Equation of State and Structure, Springer Science & Business Media, p. 2. ISBN0387335439.
^On the Theory of Stars, in Collected Papers of L. D. Landau, ed. and with an introduction by D. ter Haar, New York: Gordon and Breach, 1965; originally published in Phys. Z. Sowjet.1 (1932), 285.
^Schaefer, Henry F. (2003). Science and Christianity: Conflict Or Coherence?. The Apollos Trust. p. 9. ISBN9780974297507. I present here two examples of notable atheists. The first is Lev Landau, the most brilliant Soviet physicist of the twentieth century.
^"Lev Landau". Soylent Communications. 2012. Retrieved 7 May 2013.
^James D. Patterson; Bernard C. Bailey (20 February 2019). Solid-State Physics: Introduction to the Theory. Lev Landau - The Soviet Grand Master: Springer. p. 190. ISBN9783319753225. Landau's theoretical minimum exam was famous and only about forty students passed it in his time. This was Landau's entry-level exam for theoretical physics. It contained what Landau felt was necessary to work in that field. Like many Soviet era physicists he was an atheist.
^Kora Drobantseva's memoirs, Chapter 38, "The way we lived"; the episode with Alexander Luria (in the original Russian text, referred to as Лурье) testing Lev Landau on intellectual abilities
^Wittig, Jörg (1973). "The pressure variable in solid state physics: What about 4f-band superconductors?". In H. J. Queisser (ed.). Festkörper Probleme: Plenary Lectures of the Divisions Semiconductor Physics, Surface Physics, Low Temperature Physics, High Polymers, Thermodynamics and Statistical Mechanics, of the German Physical Society, Münster, March 19–24, 1973. Advances in Solid State Physics. Vol. 13. Berlin, Heidelberg: Springer. pp. 375–396. doi:10.1007/BFb0108579. ISBN978-3-528-08019-8.
^Matthias, B. T. (1969). "Systematics of Super Conductivity". In Wallace, P. R. (ed.). Superconductivity. Vol. 1. Gordon and Breach. pp. 225–294. ISBN9780677138107.
^William B. Jensen (1982). "The Positions of Lanthanum (Actinium) and Lutetium (Lawrencium) in the Periodic Table". J. Chem. Educ. 59 (8): 634–636. Bibcode:1982JChEd..59..634J. doi:10.1021/ed059p634.
^Scerri, Eric R (2020). The Periodic Table, Its Story and Its Significance, 2nd edition, Oxford University Press, New York, ISBN978-0190914363
Dorozynski, Alexander (1965). The Man They Wouldn't Let Die. Secker and Warburg. ASINB0006DC8BA. (After Landau's 1962 car accident, the physics community around him rallied to attempt to save his life. They managed to prolong his life until 1968.)
Janouch, Frantisek (1979). Lev D. Landau: His life and work. CERN. ASINB0007AUCL0.
Khalatnikov, I. M., ed. (1989). Landau. The physicist and the man. Recollections of L. D. Landau. Sykes, J. B. (trans.). Pergamon Press. ISBN0-08-036383-0.
Kojevnikov, Alexei B. (2004). Stalin's Great Science: The Times and Adventures of Soviet Physicists. History of Modern Physical Sciences. Imperial College Press. ISBN1-86094-420-5.
Shifman, M., ed. (2013). Under the Spell of Landau: When Theoretical Physics was Shaping Destinies. World Scientific. doi:10.1142/8641. ISBN978-981-4436-56-4.
Articles
Karl Hufbauer, "Landau's youthful sallies into stellar theory: Their origins, claims, and receptions", Historical Studies in the Physical and Biological Sciences, 37 (2007), 337–354.