Universal linear accelerator: Difference between revisions

Browse history interactively

← Previous edit

Content deleted Content added

VisualWikitext

Revision as of 17:48, 28 October 2007 edit 82.133.107.174 (talk) No edit summary ← Previous edit		Latest revision as of 21:27, 23 June 2025 edit undo Quondum (talk \| contribs) Extended confirmed users 38,970 edits u → Da
(35 intermediate revisions by 26 users not shown)
Line 1: {{refimprove\|date=May 2013}} The '''Uni'''versal '''L'''inear '''Ac'''celerator is a [[heavy ion]] [[linear particle accelerator \| linac]] based at the Heavy Ion Research Centre ([[Gesellschaft für Schwerionenforschung\|'''GSI''']]) near [[Darmstadt]], [[Germany]]. It can provide beams of accelerated [[ion]]s of elements from [[Carbon]] to [[Uranium]] with energies up to 20 [[MeV]] / [[atomic mass unit \| u]]. The UNILAC is used both to send beams of heavy ions to experiments and to load the '''SIS''' Heavy-Ion Synchrotron (Schwer-Ionen-Synchrotron) with high-energy ions. [[File:Part of UNILAC GSI.jpg\|thumb\|300px\|Part of UNILAC GSI]] Collisions between heavy-ion beams and stationary targets can be made to generate superheavy [[transactinides \| transactinide elements]].▼ Experiments using beams from UNILAC have produced, in the past 20 years, elements [[unnilseptium\|107]] to [[ununbium\|112]].▼ The '''Universal Linear Accelerator (UNILAC)''' is a [[heavy ion]] [[linear particle accelerator\|linac]] based at the [[GSI Helmholtz Centre for Heavy Ion Research]] near [[Darmstadt]], [[Germany]]. It can provide beams of accelerated [[ion]]s of elements from [[hydrogen]] to [[uranium]] with energies of 2 to 11.4 [[MeV]]/[[Dalton (unit)\|Da]].<ref>{{cite journal\|last=Barth\|first=W.\|author2=Bayer, W. \|author3=Dahl, L. \|author4=Groening, L. \|author5=Richter, S. \|author6= Yaramyshev, S. \|title=Upgrade program of the high current heavy ion UNILAC as an injector for FAIR\|journal=Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment\|year=2007\|volume=577\|issue=1–2\|pages=211–214\|doi=10.1016/j.nima.2007.02.054\|bibcode = 2007NIMPA.577..211B }}</ref> [[Category:nuclear physics]]▼ [[Category:Particle physics facilities]]▼ {{physics-stub}}▼ The main branch consists of two ion source terminals followed by a [[Radio Frequency Quadrupole]] and by an Interdigital linac [[IH linac accelerator]] resonating at 36 MHz up to the energy of 1.4 MeV/Da. The main part then is operated by a classical [[linac]] of the Alvarez type which resonates at 108 MHz. Final energy adjustment can be performed in the last section consisting of a series of single-gap resonators. This solution was proposed for maximum flexibility in beam energy. ~~[[de:Universal Linear Accelerator]]~~ The UNILAC is used both to send beams of heavy ions to experiments and to load the [[SIS18]] Heavy-Ion Synchrotron (Schwer-Ionen-Synchrotron) with high-energy ions. ~~[[fr:UNILAC]]~~ ▲Collisions between heavy-ion beams and stationary targets can be made to generate superheavy [[transactinides \| transactinide elements]]. ▲Experiments using beams from UNILAC ~~have produced,~~ in the past 20 years, have produced elements [[~~unnilseptium~~Bohrium\|107]] to [[~~ununbium~~Copernicium\|112]]. == See also == * [[GSI Helmholtz Centre for Heavy Ion Research]] == References == {{reflist}} ▲[[Category:~~nuclear physics~~Darmstadt]] ▲[[Category:Particle ~~physics facilities~~accelerators]] ▲{{~~physics~~Accelerator-stub}}