002743153 001__ 2743153
002743153 003__ SzGeCERN
002743153 005__ 20220114160447.0
002743153 0247_ $$2DOI$$9WSP$$a10.1142/9789811217135_0006
002743153 0247_ $$2DOI$$9WSP$$a10.1142/S0217751X19430061
002743153 0248_ $$aoai:inspirehep.net:1775700$$pcerncds:CERN$$qINSPIRE:HEP$$qForCDS
002743153 035__ $$9http://old.inspirehep.net/oai2d$$aoai:inspirehep.net:1775700$$d2020-10-29T09:33:05Z$$h2020-10-31T05:00:37Z$$mmarcxml
002743153 035__ $$9Inspire$$a1775700
002743153 041__ $$aeng
002743153 100__ $$aWienands, U$$uArgonne
002743153 245__ $$9WSP$$aChanneling and Radiation Experiments at SLAC
002743153 260__ $$c2019
002743153 300__ $$a9 p
002743153 520__ $$9WSP$$aSince 2014, a SLAC-Aarhus-Ferrara-CalPoly collaboration augmented by members of ANL and MIT has performed electron and positron channeling experiments using bent silicon crystals at the SLAC End Station A Test Beam as well as the FACET accelerator test facility. These experiments have revealed a remarkable channeling efficiency of about 24% under our conditions. Volume reflection is even more efficient with almost the whole beam taking part in the reflection process. A positron experiment demonstrated quasi-channeling oscillations for the first time at high beam energy. In our most recent experiment we measured the spectrum of gamma radiation for crystal orientations covering channeling and volume reflection. This series of experiments supports the development of more advanced crystalline devices capable e.g. of producing narrow-band gamma rays with electron beams or studying the interaction of the electrons with the wakefields generated in the crystal at high beam intensity.
002743153 542__ $$f© World Scientific Publishing
002743153 65017 $$2SzGeCERN$$aAccelerators and Storage Rings
002743153 690C_ $$aCERN
002743153 700__ $$aGessner, S$$uSLAC$$uCERN$$vNow at CERN, Geneva, Switzerland
002743153 700__ $$aHogan, M J$$uSLAC
002743153 700__ $$aMarkiewicz, T$$uSLAC
002743153 700__ $$aSmith, T$$uSLAC
002743153 700__ $$aSheppard, J$$uSLAC
002743153 700__ $$aUggerhøj, U I$$uAarhus U.
002743153 700__ $$aNielsen, C F$$uAarhus U.
002743153 700__ $$aWistisen, T$$uAarhus U.
002743153 700__ $$aBagli, E$$uFerrara U.$$uINFN, Ferrara
002743153 700__ $$aBandiera, L$$uINFN, Ferrara$$uFerrara U.
002743153 700__ $$aGermogli, G$$uFerrara U.$$uINFN, Ferrara
002743153 700__ $$aMazzolari, A$$uFerrara U.$$uINFN, Ferrara
002743153 700__ $$aGuidi, V$$uFerrara U.$$uINFN, Ferrara
002743153 700__ $$aSytov, A$$uFerrara U.$$uINFN, Ferrara
002743153 700__ $$aHoltzapple, R L$$uCal. Poly.
002743153 700__ $$aMcArdle, K$$uCal. Poly.
002743153 700__ $$aTucker, S$$uCal. Poly.
002743153 700__ $$aBenson, B$$uMIT$$uStanford U.$$vNow at Stanford University, Stanford, CA, USA
002743153 710__ $$gSLAC T513-E212-T523 Collaboration
002743153 773__ $$01775815$$c1943006$$n34$$pInt. J. Mod. Phys. A$$v34$$wC19-06-24.5$$y2019
002743153 773__ $$01775815$$c79-87$$wC19-06-24.5$$y2020
002743153 960__ $$a13
002743153 962__ $$b2729204$$k1943006$$nbatavia20190624
002743153 980__ $$aARTICLE
002743153 980__ $$aConferencePaper