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Beam Manufacture in PS2 M. Benedikt, S. Hancock. LHC Beams in the PS by 2015 Typeh injε l inj [evs] h ejN bunch ej RF ej [MHz] ε l ej [evs] τ ej [ns]

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Presentation on theme: "Beam Manufacture in PS2 M. Benedikt, S. Hancock. LHC Beams in the PS by 2015 Typeh injε l inj [evs] h ejN bunch ej RF ej [MHz] ε l ej [evs] τ ej [ns]"— Presentation transcript:

1 Beam Manufacture in PS2 M. Benedikt, S. Hancock

2 LHC Beams in the PS by 2015 Typeh injε l inj [evs] h ejN bunch ej RF ej [MHz] ε l ej [evs] τ ej [ns] LHC 2571.384+1687240+800.354 LHC 7570.984+1682440+800.354 Pilot160.384+168140+800.354 TOTEM160.384+168440+800.354 LHC 5071.384+1683640+800.354 ION nom160.05*2081694800.05*2084 ION early160.025*2081691800.05*2084

3 Other Beams in the PS by 2015 Typeh injε l inj [evs] h ejN bunch ej RF ej [MHz] ε l ej [evs] τ ej [ns] SFT81.3(420)-200-- SFT_b81.388103200 EAST ??80.9----- AD ??81.320410325 TOF ??81.381102.520 PS FT new SFTION

4 PS RF Systems Present PS: 5 distinct RF systems –10 MHz (2.8 -10.1 MHz) only tuneable system Acceleration Gymnastics –200 MHz fixed frequency Controlled blow-up SPS pre-bunching –13/20 MHz, 40 MHz, 80 MHz fixed-frequency systems for LHC-type beams Bunch train production Bunch shortening.

5 First Ideas for PS2 Minimize number of RF systems in PS2: –One accelerating system Revolution frequency ratio for protons in PS: 1,094 Revolution frequency ratio for protons in PS2: 1,024 Revolution frequency ratio for Pb54+ in PS&PS2 with injection directly from LEIR: 2,7 –System(s) for controlled blow-up and also for LHC bunch production and shortening

6 Injector SPL - Protons Beam characteristics SPL –~0,5 ms H - beam, 352 MHz, ~1.4E14 per pulse –Chopper designed for 40 MHz operation Accelerating RF system 40 MHz (tuneable?) –Paint directly any bunch pattern for LHC –FT beam for SPS with 40 MHz Debunched beam for new MTE? –Bunch-to-bucket transfer with empty buckets is not an issue for SPS space charge due to 50 GeV transfer energy instead of 13 GeV. For new PS beams –Any bunch pattern down to 25 ns spacing.

7 SPL parameters DesignSPL nominalSPL (5 GeV) Output energy [GeV]3.55.0 Beam power [MW]4 (5) Max. rep. rate [Hz]50 Protons p. pulse [10 14 ]1.41.0 Protons p. bunch [10 9 ]1.14 Av. pulse current [mA]40 Pulse length [ms]0.570.4 Rms bunch length at linac output [ps]12≈11 Chopping ratio [%]62 Chopping scheme (shortest possible)3 out of 8 Bunch frequency [MHz]352.2 Transv. norm. rms em. [mm mrad]0.4 Longitudinal rms emittance [deg MeV]0.2 Linac length [m]430535

8 Injector PS - Protons Is it possible to produce 40 MHz spacing via splitting at ~4 GeV before ejection to PS2? –At this energy we have gained more than a factor 4 in space charge tune spread. –Check if existing 40 MHz can be tuned down (permanently) to the required ~38 MHz?

9 IONS Beam directly from LEIR –Structure from LEIR to fit 40 MHz system (40/2.7=14.8 MHz at injection) –Tuneability of RF To be checked –Space charge issues –Beam size (aperture) –General issues (B at injection, ripple, etc.) Alternatives to handle ions? –Dedicated RF system for ions (FINEMET, ~MHz) –Lower frequency tuneable ferrite RF (10 MHz) for protons and ions –At least frequency ratio of 2 in main accelerating system to do rebucketing

10 Further Work Tuneability and gradient for ferrite systems as function of frequency Alternatives for ion acceleration (FFAG, Booster ring) Choices for high-frequency system(s) for blow-up and bunch shortening

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