Genius loci
Vaclav Smil
SUMMARY: The twentieth century was made in Budapest.
The ancient Romans had a term for it -- genius loci -- and history is not short of
astounding, seemingly inexplicable concatenations of creative talent. Florence in the
first decade of the sixteenth century is perhaps the unmatched example: anyone idling on
the Piazza della Signoria for a few days could have bumped into Leonardo da Vinci,
Raphael, Michelangelo and Botticelli. Other well-known efflorescences of artistic
creativity include Joseph II's Vienna in the 1780s, where one could have met C. W.
Gluck, Haydn and Mozart in the same room. Or, eleven decades later, in fin de siecle Paris
one could read the most recent instalment of Émile Zola's Rougon-Macquart cycle,
before seeing Claude Monet's latest canvases from Giverny, and then strolling along to
a performance of Claude Debussy's Prélude a l'apres-midi d'un faune in the
evening. But it is not just today's young adults -- who probably view Silicon Valley
as the centre of the creative world -- who would be unaware that an improbable number of
scientific greats were born in Budapest in the decade between 1898 and 1908. Between them,
this group were responsible for some of the twentieth century's most decisive
scientific advances and, consequently, some of its fundamental strategic and political
transformations. Leo Szilard, a physicist who both studied and worked with Einstein and
who, together with Enrico Fermi, patented the first nuclear fission reactor, was born
there in 1898. In the summer of 1939, Szilard and Eugene Wigner, born in the city in 1902,
persuaded Einstein to sign the famous letter to President Franklin Roosevelt that led to
the Manhattan Project. Dennis Gabor, whose research ranged from pioneering work in
holography to nuclear fusion, was born in 1900, and John von Neumann three years later.
Von Neumann's prodigious feats of problem-solving during the Second World War --
prefigured by his ability to divide eight-digit numbers in his head at the age of six --
have been overshadowed by his postwar conception of the stored computer program, the
prototypical architecture of modern computers (although when told in 1954 of the idea for
FORTRAN, he asked: "Why would you want more than machine language?"). Edward
Teller, born in 1908, is the only living member of this group. His fame will always rest
on his contribution to the design of America's first thermonuclear weapon, and on his
later advocacy of antiballistic missile defences. By pushing the time frame back a bit,
and by admitting bright intellects from beyond physics, the Budapest circle must be
enlarged -- to mention just its most prominent overachievers -- by Theodore von Kármán
(1881-1963), a pioneer in aerodynamics and aeronautics whose studies of fluid flows helped
to open the era of fast subsonic and supersonic flight; by Albert Szent-Györgi
(1893-1986), who, after isolating ascorbic acid (for which he won the Nobel Prize in
Physiology for 1937), went on to identify actin and myosin, the proteins responsible for
muscle contraction; by Michael Polanyi (1891-1976), who was not just an outstanding
physical chemist but also an accomplished economist and philosopher; and by Arthur
Koestler (1905-83), a brilliant writer and one of the most incisive chroniclers of the
great political and scientific upheavals of the twentieth century. Besides their
birthplace, these men had a number of other things in common. Most of them came from the
city's German-speaking Jewish families, but Szent-Györgi was born to a rich
land-owning family and Gabor's father was the director of a mining company. All of
them left their birthplace to attend university either in Germany (mostly Berlin and
Karlsruhe) or at Zurich's ETH. And all of them ended up either in the United States or
the United Kingdom. But the differences among them are no less remarkable. Three of the
group-- Szent-Györgi in 1937, Wigner in 1963 and Gabor in 1971 -- got Nobel prizes.
Szilard, with his myriad of interests, never settled in one place, and his fundamental
contributions to modern science are not generally appreciated. Von Kármán, von Neumann and
Teller contributed much to the United States' rise to postwar strategic dominance. No
single fact can explain this phenomenon. Budapest was not the only city in the
Austro-Hungarian empire brimming with creativity at this time. In the decade before the
First World War, intellects such as Sigmund Freud, Gustav Mahler and the physicist Ernst
Mach worked in Vienna. Meanwhile, Franz Kafka, the painter Alfons Mucha and the poet
Rainer Maria Rilke were in Prague, where, in 1911-12, Einstein was developing his general
theory of relativity. A number of factors that von Neumann identified as being behind the
Budapest phenomenon were present in the other two cities: a multicultural environment,
external pressure to succeed, "a feeling of extreme insecurity in the individuals,
and the necessity to produce the unusual or else face extinction". But, in the end,
only the Budapest group made such an improbable -- and incomparable -- mark on history.
Blue streak: Turn-of-the-century Budapest produced a plethora of great minds, especially
in physics.
Nature 409, 21-21 (04 Jan 2001) Millennium Essay
Forrás: Nature 409, 21-21 (04 Jan 2001) Millennium Essay
Jó lenne felrakni pl. a Wikisource-ba, de a szöveget sajnos csak töredékenként lehet
kinyerni a Nature (
www.nature.com) honlapjának keresőjéből -- én is úgy rakosgattam össze.
Egészében véve valószínűleg nem használható fel szabadon. (A cikkre egyébként Palló
Gábornak "A magyar tudós-zsenik" c. Mindentudás Egyeteme-beli előadása nyomán
kerestem rá.) Szent-Györgyi nevét végig rosszul írták. Ha mégis ki lehet rakni valahova
legálisan, akkor ezt majd javítani kéne.
Ádám