Edward Teller

Biography

Edward Teller was born to Max Teller and Idona Deutsch, who both were assimilated Hungarian Jews. Edward's mother Idona was an accomplished pianist who gave up her aspirations to a concert career when she married Edward's father, who was a lawyer. As a young boy Edward experienced a short and fierce communist dictatorship under Béla Kun (March 21, 1919 – August 1, 1919); it has been suggested that his rabid aversion of communism in later life was rooted in this experience. The Hungarian communists were soon ousted by Rear Admiral Miklós Horthy who headed a fascist regime until the end of World War II.

Edward entered in 1918 the famous gymnasium "Minta" (an advanced German type of high school founded by the father of Theodore von Kármán), where he met his later wife Augusta Maria ("Mici") Harkanyi, who was a sister of one of Edward's closest friends. The Harkanyis were from Jewish descent but had converted to Christianity. After finishing the gymnasium, Edward spent a few months at the university in Budapest, but moved early January 1926 to Karlsruhe in Germany to study chemical engineering. Karlsruhe was at that time the seat of one of the most outstanding technical universities of the country. In the spring of 1928 Edward had enough of chemical engineering and moved to Munich to study theoretical physics under Arnold Sommerfeld, a great mathematical physicist who contributed importantly to the development of quantum mechanics. Shortly after his arrival in Munich, Edward jumped of a moving streetcar, stumbled, and got his right foot ran over by the streetcar that he jumped from. The doctors were unable to save his foot, so for the rest of his life he had a prosthetic one, that did not keep him from being a good table tennis player. He also was a very good pianist.

When, after four months, Edward had recovered, he decided to switch universities again and to go to Leipzig to do his Ph.D work under Werner Heisenberg, one of the founders of quantum mechanics, who a year earlier had been appointed in Leipzig to the chair of theoretical physics. He finished his doctorate work in the amazingly short period of just over a year and got his degree early 1930, just 22 years old. His Ph.D. work, which was on the excited states of the one-electron system H₂⁺, was his first publication.^[1]

After obtaining his doctorate Teller moved to the birth place of quantum mechanics, the theoretical physics institute of the University of Göttingen. Here he worked mainly on theoretical chemistry subjects. For instance, he wrote with the Russian physicist Georg Rumer and the German mathematician Hermann Weyl about chemical bonding theory from the point of view of group theory.^[2] He worked with the German experimental spectroscopist Gerhard Herzberg on the effect of the vibrations of molecules on electronic transitions, which was one of the first papers that went beyond the Born-Oppenheimer approximation.^[3] With the Czech physicist George Placzek he worked on the theory of Raman spectra ^[4] He advised a Göttinger student, Rudolph Renner, on his PhD research. This resulted in a paper (without Teller) about an effect that later came to be known as the Renner-Teller effect.

In the early spring of 1933 all Jewish personnel of all German universities were fired, including Teller. He found a lecturer position at the Sir William Ramsay Laboratories of Physical and Inorganic Chemistry, University College London, but went soon after his appointment to Copenhagen because he had received a Rockefeller stipend for that purpose. In Copenhagen he spent an 8 months sabbatical leave at the institute of Niels Bohr. While in Denmark, Eduard (as he called himself at that time) married on February 26, 1934 his old girlfriend Mici Harkanyi. Back in London at the William Ramsay Lab, he met Hermann Jahn, a British physicist of German descent, who worked at the Royal Institution. The two wrote a paper together containing material that may well be Teller's most famous contribution to basic science: the Jahn-Teller effect.^[5] Briefly, the effect is that a highly symmetric non-linear molecule distorts to a geometry of lower symmetry when the electronic state of the molecule is degenerate, that is, when there is more than one electronic wave function of the same energy describing the state of the molecule. The geometry distortion causes the degeneracy to be lifted.

Soon after his return to London, Teller received an invitation to become full professor at George Washington University. His friend, the Russian emigré George Gamow, at that time professor of physics at this university, had recommended him to the university authorities, who were looking for an expansion of their physics department with a few theoreticians. After some deliberation—Mici and Edward had just bought a house in London—they decided to cross the Atlantic and to continue their life in the US. In Washington D.C., where the Tellers arrived in August 1935, Edward started a fruitful cooperation with George Gamow. In 1936 they published an important work in nuclear physics about—what is now known as—the Gamow-Teller decay of nuclei.^[6] The work was followed by several astrophysical papers on red giants and rates of thermonuclear reactions occurring in stars.

In the summer of 1939 Teller was teaching physics at Columbia University in New York where he met his old Hungarian friends Leo Szilard and Eugene Wigner. The three physicists were quite excited about the recent discovery (December 1938) of nuclear fission (splitting of nuclei) and especially Szilard foresaw the possibility of a nuclear chain reaction that would liberate enormous amounts of energy. The three Jewish Hungarians decided that the American president Franklin D. Roosevelt should be informed about the possibility of an atomic bomb, especially because Nazi Germany could be expected to build one, and they thought that Einstein, with his enormous prestige, would be the person to write a letter to the president. First Szilard and Wigner visited Einstein, who was summering on Long Island, and when a second visit to Einstein appeared necessary, Teller drove Szilard to Einstein and took notes (in German) and edited the letter. This, undersigned by Einstein, was handed on October 11, 1939 to the president by Alexander Sachs, a personal friend of the president. Historians are divided about the influence that Einstein's letter had on the decision to start the Manhattan project two years later. For instance, Abraham Pais, an important biographer of Einstein's, believes that its influence was "marginal".^[7]

On March 4, 1941 after Hitler had occupied much of Europe and a few months before he ordered the invasion of the Soviet Union, the Tellers became US citizens.

(To be continued)

References

↑ Eduard Teller, Zeitschrift für Physik, Über das Wasserstoffmolekülion [On the hydrogen molecule ion], vol. 61, pp. 458–480 (1930)
↑ G. Rumer, E. Teller, and H. Weyl, Eine für die Valenztheorie geeignete Basis der binären Vektorinvarianten (A basis of binary vector invariants suitable for valence theory) Gött. Nachrichten, Math. Phys. Klassse, Sitzung am 28 Oktober p. 499 (1932)
↑ G Herzberg and E. Teller Schwingungsstruktur der Electronenübergange bei mehratomigen Molekülen (Vibrational structure of electronic transitions in polyatomic molecule), Z. Phys. Chemie B21, 410-446 (1933)
↑ G. Placzek and E. Teller, Die Rotationsstruktur der Ramanbanden mehratomiger Moleküle (The rotational structure of Raman bands of polyatomic molecules), Zeitschrift für Physik vol. 81 pp. 209-258 (1933)
↑ H. A. Jahn and E. Teller, Stability of Polyatomic Molecules in Degenerate Electronic States, Proc. Royal Soc. vol. 161, pp. 220–235 (1937)
↑ G. Gamow and E. Teller, Selection Rules for the β-Disintegration, Physical Review, vol. 49, pp. 895-899 (1936)
↑ A. Pais, Subtle is the Lord ..., Oxford University Press, Oxford UK (1982). p. 454

Bibliography

S. A. Blumberg and G. Owens, The Life and Times of Edward Teller, G. P. Putnam's Sons, New York (1976)
Richard Rhodes, Dark Sun, Simon & Schuster, Inc. New York (1995)
S. B. Libby and M. S. Weiss, Edward Teller's Scientific Life, Physics Today, vol. 57(8) pp. 45–50 (2004)
H. Brown and M. May, Edward Teller in the Public Arena, Physics Today, vol. 57(8) pp. 51–53 (2004)

External link

Edward Teller's Scientific Legacy Lecture on Teller's achievements in physics by Stephen B. Libby, 2005

[1] Eduard Teller, Zeitschrift für Physik, Über das Wasserstoffmolekülion [On the hydrogen molecule ion], vol. 61, pp. 458–480 (1930)

[2] G. Rumer, E. Teller, and H. Weyl, Eine für die Valenztheorie geeignete Basis der binären Vektorinvarianten (A basis of binary vector invariants suitable for valence theory) Gött. Nachrichten, Math. Phys. Klassse, Sitzung am 28 Oktober p. 499 (1932)

[3] G Herzberg and E. Teller Schwingungsstruktur der Electronenübergange bei mehratomigen Molekülen (Vibrational structure of electronic transitions in polyatomic molecule), Z. Phys. Chemie B21, 410-446 (1933)

[4] G. Placzek and E. Teller, Die Rotationsstruktur der Ramanbanden mehratomiger Moleküle (The rotational structure of Raman bands of polyatomic molecules), Zeitschrift für Physik vol. 81 pp. 209-258 (1933)

[5] H. A. Jahn and E. Teller, Stability of Polyatomic Molecules in Degenerate Electronic States, Proc. Royal Soc. vol. 161, pp. 220–235 (1937)

[6] G. Gamow and E. Teller, Selection Rules for the β-Disintegration, Physical Review, vol. 49, pp. 895-899 (1936)

[7] A. Pais, Subtle is the Lord ..., Oxford University Press, Oxford UK (1982). p. 454

[1]

[2]

[3]

[4]

[5]

[6]

[7]

Edward Teller

Contents

Biography

References

Bibliography

External link

Navigation menu

Edward Teller

Biography

References

Bibliography

External link

Navigation menu

Search