Revision as of 22:43, 30 April 2019 edit Kronhjorten (talk \| contribs) 275 edits m remove moving tag after move ← Previous edit		Revision as of 09:41, 1 May 2019 edit undo Davidkelliher (talk \| contribs) 57 edits m Minor edit: "it has regained interest since the mid-1980s" to "interest has been revived since the mid-1980s". Next edit →
Line 10: }}</ref><ref>{{cite journal \| author=Daniel Clery \| date=4 January 2010 \| title=The Next Big Beam? \| journal=[[Science (journal)\|Science]] \| volume=327 \|pages=142–143 \| doi=10.1126/science.327.5962.142 \| pmid=20056871 \| bibcode = 2010Sci...327..142C \| issue=5962 \| url = \| format = \| accessdate = }}</ref> Thus, FFA accelerators combine the cyclotron's advantage of continuous, unpulsed operation, with the synchrotron's relatively inexpensive small magnet ring, of narrow bore. Although the development of FFAs had not been pursued for over a decade starting from 1967, itinterest has ~~regained~~been ~~interest~~revived since the mid-1980s for usage in [[neutron]] [[spallation]] sources, as a driver for [[muon]] colliders <ref name=briefhistory /> and to accelerate muons in a [[Neutrino Factory\|neutrino factory]] since the mid-1990s. The revival in FFA research has been particularly strong in Japan with the construction of several rings. This resurgence has been prompted in part by advances in [[Radio frequency\|RF]] cavities and in magnet design.<ref name=mori2004>{{Cite journal

Fixed-field alternating gradient accelerator: Difference between revisions