Bevatron


Bevatron

The Bevatron was a particle accelerator — specifically, a weak-focusing proton synchrotron — at Lawrence Berkeley National Laboratory which began operating in 1954. The antiproton was discovered there in 1955, resulting in the 1959 Nobel Prize in physics for Emilio Segrè and Owen Chamberlain. [ [http://livefromcern.web.cern.ch/livefromcern/antimatter/history/AM-history01-b.html The History of Antimatter] ] It accelerated protons into a fixed target, and was named for its ability to impart energies of billions of eV. (This is the reason why it was named Bevatron: Billions of eV Synchrotron.) It received a new lease on life in the 1971 [ [http://www.lbl.gov/Science-Articles/Archive/Bevalac-nine-lives.html "Bevalac Had 40-Year Record of Historic Discoveries" Goldhaber, J. (1992) Berkeley Lab Archive] ] , when it was joined to the SuperHILAC linear accelerator as an injector for heavy ions. [cite journal |last=Stock |first=Reinhard |authorlink= |coauthors= |year=2004 |month= |title=Relativistic nucleus–nucleus collisions: from the BEVALAC to RHIC |journal=Journal of Physics G: Nuclear and Particle Physics |volume=30 |issue= |pages=S633–S648 |doi=10.1088/0954-3899/30/8/001 |id=arXiv|nucl-ex|0405007v1 |url= |accessdate= |quote= ] The combination was known as the Bevalac. It could accelerate any nuclei in the periodic table to relativistic energies. It was finally decommissioned in 1993. The building that houses the Bevatron is still present but has been slated for demolition beginning in June 2008 and ending in 2011.

The Bevatron was largely designed to be energetic enough to create antiprotons, and thus test the hypothesis that every particle has a corresponding anti-particle [ [http://nobelprize.org/nobel_prizes/physics/laureates/1959/segre-lecture.pdf Segrè Nobel Lecture, 1960] ] . At the time it was built, there was no known way to confine a particle beam to a narrow aperture, so the beam space was about four square feet in cross section. In order to create antiprotons (mass 938 MeV) in collisions with nucleons in a stationary target while conserving both energy and momentum, a proton beam energy of approximately 6.2 GeV is required. The combination of beam aperture and energy required a huge, 10,000 ton iron magnet. The next generation of accelerators used "strong focusing", and required much smaller apertures, and thus much cheaper magnets. The AGS (Alternating Gradient Synchrotron) at Brookhaven was the first next-generation machine, with an aperture roughly an order of magnitude less in both transverse directions, and reaching 30 GeV proton energy, yet with a less massive magnet ring.

In the years following the antiproton discovery, much pioneering work was done here using beams of protons extracted from the accelerator proper, to hit targets and generate secondary beams of elementary particles, not only protons but also neutrons, pions, "strange particles", and many others. These could in turn be passed for further study through various targets and specialized detectors, notably the liquid hydrogen bubble chamber, for which Luis Alvarez received the Nobel Prize in 1968.

See also

* Tevatron
* Zevatron
* Alternating Gradient Synchrotron
* Large Hadron Collider

External links

* [http://www.lbl.gov/Science-Articles/Research-Review/Magazine/1981/81fchp6.html History of the Bevatron]
* [http://www.acme.com/jef/photos/bevatron.html Pictures of the Bevatron]
* [http://www.lbl.gov/Science-Articles/Archive/Bevalac-shutdown.html Shutdown of the Bevatron]
* [http://www.dailycal.org/article/101423 Bevatron Building Slated for Demolition]

References


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Look at other dictionaries:

  • Bevatron — Saltar a navegación, búsqueda Vista del campus de la Universidad de California, Berkeley, desde el Lawrence Berkeley National Laboratory donde se emplazaba el Bevatron. El Bevatron fue un acelerador de partículas concretamente, un sincrotrón de… …   Wikipedia Español

  • bevatron — BEVATRÓN, bevatroane s.n. (fiz.) Accelerator de particule. [Sil. tro ] – Din fr. bévatron. Trimis de paula, 02.06.2002. Sursa: DOOM  BEVATRÓN s.n. Accelerator de particule capabil să dea electronilor o energie de miliarde de electronvolţi. (din… …   Dicționar Român

  • Bevatron — ist der Name des ersten großen Synchrotrons, eines Teilchenbeschleunigers für Protonen (Siehe auch: Ionenstrahlung). Ernest Lawrence erbaute das Bevatron 1954 an der Universität von Berkeley (Kalifornien). Der Name des Protonenbeschleunigers… …   Deutsch Wikipedia

  • bévatron — [ bevatrɔ̃ ] n. m. • 1953; de BeV, unité de un milliard d électronvolts, d apr. cyclotron ♦ Phys. Synchrotron à protons de très grande énergie. bévatron [bevatʀɔ̃] n. m. ÉTYM. 1953, Larousse mensuel; de BeV, unité d un milliard d électrons volts …   Encyclopédie Universelle

  • bevatron — ev a*tron n. a particle accelerator which is capable of accelerating protons up to 6 gigaeletron volts. [WordNet 1.5] …   The Collaborative International Dictionary of English

  • bevatron — bȅvatrōn m DEFINICIJA fiz. kolokvijalno ime za protonski sinkrotron na Barkeleyju (sveučilište u Kaliforniji), proizvodi energije do 6 GeV (pomoću njega potvrđeno postojanje antiprotona i antineutrona) ETIMOLOGIJA v. bilijun + v. elektrika + v.… …   Hrvatski jezični portal

  • Bevatron — ☆ Bevatron [bev′ə trän΄ ] n. [< BEV + tron, as in CYCLOTRON] the synchrotron at the University of California, Berkeley, used to accelerate protons and other charged particles to an energy level of 6 GeV or more …   English World dictionary

  • Bevatron — bevatronas statusas T sritis fizika atitikmenys: angl. bevatron vok. Bevatron, n rus. бэватрон, m pranc. bévatron, m …   Fizikos terminų žodynas

  • bevatron — bevatronas statusas T sritis fizika atitikmenys: angl. bevatron vok. Bevatron, n rus. бэватрон, m pranc. bévatron, m …   Fizikos terminų žodynas

  • bévatron — bevatronas statusas T sritis fizika atitikmenys: angl. bevatron vok. Bevatron, n rus. бэватрон, m pranc. bévatron, m …   Fizikos terminų žodynas


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