Institut für Angewandte Physik LINAC AG H. Podlech 1 Injector Development for MYRRHA 3 nd Open Collaboration Meeting on Superconducting Linacs for High.

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Institut für Angewandte Physik LINAC AG H. Podlech 1 MYRRHA Injector Design and Related R&D 2 nd Open Collaboration Meeting on Superconducting Linacs for.

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Presentation transcript:

Institut für Angewandte Physik LINAC AG H. Podlech 1 Injector Development for MYRRHA 3 nd Open Collaboration Meeting on Superconducting Linacs for High Power Proton Beams (SLHiPP-3) Louvain-la-Neuve April 2013 Holger J. Podlech M. Amberg, D. Mäder, R. Ratzinger, A. Schempp, R. Tiede, M. Vossberg, C. Zhang C. Lenz, M. Busch, F. Dziuba, A. Seibel Institute for Applied Physics (IAP) University of Frankfurt, Germany

Institut für Angewandte Physik LINAC AG H. Podlech 2 The MYRRHA Proton-Driver

Institut für Angewandte Physik LINAC AG H. Podlech 3 Present Scheme of the MYRRHA Injector 1.5 MeV 4-Rod RFQ Dynamics based on KONUS Room temperature CH-cavities Superconducting CH-cavities

Institut für Angewandte Physik LINAC AG H. Podlech 4 Short Protoype has been built Q=4300 R p =90 k  m  P/L=19 KW/m Ready for RF tests Goal: 50 kW/m ParameterUnitValue Cavity type4-Rod FrequencyMHz176.1 E in keV30 E ou tMeV1.5 Lengthm4 Q (estimated)3800 R p (estimated) kmkm 67 UkV40 P/LkW/m25 PkW MeV RFQ Optimized stem cooling

Institut für Angewandte Physik LINAC AG H. Podlech 5 MAX CH-Prototype (room temperature)

Institut für Angewandte Physik LINAC AG H. Podlech 6 MAX CH-Prototype rt RF and beam tests until end of 2013

Institut für Angewandte Physik LINAC AG H. Podlech 7 MYRRHA sc CH cavities CH3 CH4 CH5 CH6 First CH (sc) prototype

Institut für Angewandte Physik LINAC AG H. Podlech 8 Bellow Tuner Static Tuners Helium VesselCoupler Flanges 325 MHz CH-Prototype Praparation Flanges  Frequency (MHz) Cells7 Length  -def (mm) 505 Diameter (mm)348 E a (MV/m)5 E p /E a 5.1 B p /E a [mT/(MV/m)]13 G (  ) 64 R a /Q 0 (  ) 1248 R a R s (  2 ) 80000

Institut für Angewandte Physik LINAC AG H. Podlech MHz CH-Prototype

Institut für Angewandte Physik LINAC AG H. Podlech MHz Cavity during Fabrication at RI Delivered without preparation (no BCP, no HPR) and without flanges (!)  Contaminated surface

Institut für Angewandte Physik LINAC AG H. Podlech 11 First Cryogenic Test at IAP Frankfurt

Institut für Angewandte Physik LINAC AG H. Podlech MHz Cavity: Cryogenic Test no BCP, no HPR

Institut für Angewandte Physik LINAC AG H. Podlech 13 Disadvantages of Present Design Sensitivity of longitudinal dynamics Available space for diagnostics Investigation of an alternative design based on a more „conventional“ solution with negative synchronous phase

Institut für Angewandte Physik LINAC AG H. Podlech 14 New Design Negative synchronous phase Based on CH-cavities Room temperature part: MeV Superconducting part: MeV 5-gap cavities Goal: More space for diagnostics Goal: Simpler cavities More cavities but cheaper per cavity Shorter cryo modules with warm quadrupoles

Institut für Angewandte Physik LINAC AG H. Podlech 15 New Design: Scheme and Diagnostics ECR LEBT RFQ B C1C2 C3 C4 D D B SC1 SC2 SC3 SC4 SC5 SC6 Steerer Phase probe/Beam pos. monitor Current transformer Faraday cup Halo Monitor Collimator Beam profile monitor 0.03 MeV 1.5 MeV 3.5 MeV 17 MeV

Institut für Angewandte Physik LINAC AG H. Podlech 16 Preliminary Beam Dynamics Results - New Design injection into first cryo module

Institut für Angewandte Physik LINAC AG H. Podlech 17 Cavities for the Alternative Design ParameterUnitCH-1 Beta FrequencyMHz176.1 Gap number5 Length (5  ) mm411 Cell lengthmm82.3 Aperturemm40 UaUa MV1.64 Accelerating gradientMV/ m5 E p / E a 4.4 EpEp MV/m22 Prototype is planned to be constructed

Institut für Angewandte Physik LINAC AG H. Podlech 18 Thank you