Solvay Conference

The International Solvay Institutes for Physics and Chemistry, located in Brussels, were founded by the Belgian industrialist Ernest Solvay in 1912, following the historic invitation-only 1911 Conseil Solvay, considered a turning point in the world of physics. The Institutes coordinate conferences, workshops, seminars, and colloquia.[1]

Following the initial success of 1911, the Solvay Conferences (Conseils Solvay) have been devoted to outstanding preeminent open problems in both physics and chemistry. The usual schedule is every three years, but there have been larger gaps.

Notable Solvay Conferences

First Conference

Hendrik A. Lorentz was chairman of the first Solvay Conference held in Brussels in the autumn of 1911. The subject was Radiation and the Quanta. This conference looked at the problems of having two approaches, namely the classical physics and quantum theory. Albert Einstein was the second youngest physicist present (the youngest one was Lindemann). Other members of the Solvay Congress included such luminaries as Marie Skłodowska-Curie and Henri Poincaré. (See image for attendee list.)

Third Conference

The first Solvay Conference following World War I was held in April 1921. Most German scientists were barred from attending. In protest at this action, Albert Einstein, himself a citizen and a vocal supporter of the infant Weimar Republic, declined his invitation to attend the conference where most of his countrymen were barred.

Fifth Conference

Perhaps the most famous conference was the October 1927 Fifth Solvay International Conference on Electrons and Photons, where the world's most notable physicists met to discuss the newly formulated quantum theory. The leading figures were Albert Einstein and Niels Bohr. Einstein, disenchanted with Heisenberg's uncertainty principle, remarked "God does not play dice". Bohr replied, "Einstein, stop telling God what to do". (See Bohr–Einstein debates.) 17 of the 29 attendees were or became Nobel Prize winners, including Marie Curie, who alone among them, had won Nobel Prizes in two separate scientific disciplines.[2]

This conference was also the culmination of the struggle between Einstein and the scientific realists, who wanted strict rules of scientific method as laid out by Charles Peirce and Karl Popper, versus Bohr and the instrumentalists, who wanted looser rules based on outcomes. Starting at this point, the instrumentalists won, instrumentalism having been seen as the norm ever since,[3] although the debate has been actively continued by the likes of Alan Musgrave.

Auguste Piccard Émile Henriot (chemist) Paul Ehrenfest Édouard Herzen Théophile de Donder Erwin Schrödinger Jules-Émile Verschaffelt Wolfgang Pauli Werner Heisenberg Léon Brillouin Peter Debye Martin Knudsen William Lawrence Bragg Paul Dirac Arthur Compton Max Born Niels Bohr Irving Langmuir Max Planck Marie Curie Hendrik Lorentz Albert Einstein Paul Langevin Charles Thomson Rees Wilson Owen Willans RichardsonA. Piccard, E. Henriot, P. Ehrenfest, E. Herzen, Th. De Donder, E. Schrödinger, J.E. Verschaffelt, W. Pauli, W. Heisenberg, R.H. Fowler, L. Brillouin;P. Debye, M. Knudsen, W.L. Bragg, H.A. Kramers, P.A.M. Dirac, A.H. Compton, L. de Broglie, M. Born, N. Bohr;I. Langmuir, M. Planck, M. Curie, H.A. Lorentz, A. Einstein, P. Langevin, Ch. E. Guye, C.T.R. Wilson, O.W. Richardson Fifth conference participants, 1927. Institut International de Physique Solvay in Leopold Park.Image
A. Piccard, E. Henriot, P. Ehrenfest, E. Herzen, Th. de Donder, E. Schrödinger, J.E. Verschaffelt, W. Pauli, W. Heisenberg, R.H. Fowler, L. Brillouin;

P. Debye, M. Knudsen, W.L. Bragg, H.A. Kramers, P.A.M. Dirac, A.H. Compton, L. de Broglie, M. Born, N. Bohr;
I. Langmuir, M. Planck, M. Skłodowska-Curie, H.A. Lorentz, A. Einstein, P. Langevin, Ch.-E. Guye, C.T.R. Wilson, O.W. Richardson

Fifth conference participants, 1927. Institut International de Physique Solvay in Leopold Park.

Solvay Conferences on Physics

No Year Title Translation Chair
1 1911 La théorie du rayonnement et les quanta The theory of radiation and quanta Hendrik Lorentz (Leiden)
2 1913 La structure de la matière The structure of matter
3 1921 Atomes et électrons Atoms and electrons
4 1924 Conductibilité électrique des métaux et problèmes connexes Electric conductivity of metals and related problems
5 1927 Electrons et photons Electrons and photons
6 1930 Le magnétisme Magnetism Paul Langevin (Paris)
7 1933 Structure et propriétés des noyaux atomiques Structure & properties of the atomic nucleus
8 1948 Les particules élémentaires Elementary particles William Lawrence Bragg (Cambridge)
9 1951 L'état solide The solid state
10 1954 Les électrons dans les métaux Electrons in metals
11 1958 La structure et l'évolution de l'univers The structure and evolution of the universe
12 1961 La théorie quantique des champs Quantum field theory
13 1964 The Structure and Evolution of Galaxies J. Robert Oppenheimer (Princeton)
14 1967 Fundamental Problems in Elementary Particle Physics Christian Møller (Copenhagen)
15 1970 Symmetry Properties of Nuclei Edoardo Amaldi (Rome)
16 1973 Astrophysics and Gravitation
17 1978 Order and Fluctuations in Equilibrium and Nonequilibrium Statistical Mechanics Léon van Hove (CERN)
18 1984 Higher Energy Physics
19 1987 Surface Science F. W. de Wette (Austin)
20 1991 Quantum Optics Paul Mandel (Brussels)
21 1998 Dynamical Systems and Irreversibility Ioannis Antoniou (Brussels)
22 2001 The Physics of Communication
23 2005 The Quantum Structure of Space and Time David Gross (Santa Barbara)
24 2008 Quantum Theory of Condensed Matter Bertrand Halperin (Harvard)
25 2011 The theory of the quantum world David Gross
26 2014 Astrophysics and Cosmology Roger Blandford (Stanford)

Conferences on Physics gallery

Solvay Conferences on Chemistry

No Year Title Translation Chair
1 1922 Cinq Questions d'Actualité Five topical questions William Jackson Pope (Cambridge)
2 1925 Structure et Activité Chimique Structure and Chemical Activity
3 1928 Questions d'Actualité Topical Questions
4 1931 Constitution et Configuration des Molécules Organiques Constitution and Configuration of Organic Molecules
5 1934 L'Oxygène, ses réactions chimiques et biologiques Oxygen, and its chemical and biological reactions.
6 1937 Les vitamines et les Hormones Vitamins and Hormones Frédéric Swarts (Ghent)
7 1947 Les Isotopes Isotopes Paul Karrer (Zurich)
8 1950 Le Mécanisme de l'Oxydation The mechanism of oxidation
9 1953 Les Protéines Proteins
10 1956 Quelques Problèmes de Chimie Minérale Some Problems of Inorganic Chemistry
11 1959 Les Nucléoprotéines Nucleoproteins Alfred Rene Ubbelohde (London)
12 1962 Transfert d'Energie dans les Gaz Energy transfer in gases
13 1965 Reactivity of the Photoexcited Organic Molecule
14 1969 Phase Transitions
15 1970 Electrostatic Interactions and Structure of Water
16 1976 Molecular Movements and Chemical Reactivity as conditioned by Membranes, Enzymes and other Molecules
17 1980 Aspects of Chemical Evolution
18 1983 Design and Synthesis of Organic Molecules Based on Molecular Recognition Ephraim Katchalski (Rehovot) & Vladimir Prelog (Zurich)
19 1987 Surface Science F. W. de Wette (Austin)
20 1995 Chemical Reactions and their Control on the Femtosecond Time Scale Pierre Gaspard (Brussels)
21 2007 From Noncovalent Assemblies to Molecular Machines Jean-Pierre Sauvage (Strasbourg)
22 2010 Quantum Effects in Chemistry and Biology Graham Fleming (Berkeley)
23 2013 New Chemistry and New Opportunities from the Expanding Protein Universe Kurt Wüthrich (ETH Zurich)

Conferences on Chemistry gallery

References

  1. Solvay Institutes - About Us
  2. Lorentz & the Solvay conferences, Instituut-Lorentz, Leiden University
  3. Leplin, J. (1984). Scientific Realism. University of California Press. ISBN 978-0-520-05155-3.

Further reading

External links

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