Superbeams with SPL at CERN - PowerPoint PPT Presentation

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Superbeams with SPL at CERN

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The LEP klystron Storage of the LEP cavities in the ISR tunnel ... Chopper structure Full performance prototype tested Driver amplifier in development Scaled ... – PowerPoint PPT presentation

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Title: Superbeams with SPL at CERN


1
Superbeams with SPL at CERN
SPL Superconducting Proton Linac A concept
for modern high intensity proton beams at CERN
based on a high-energy Superconducting Linear
Accelerator
  • 1. Introduction
  • 2. SPL principle and characteristics
  • 3. On-going RD
  • 4. Staging
  • 5. Summary and Conclusion

2
From Neutrino Factory to Neutrino Superbeam
CERN baseline scenario for a neutrino Factory m
from p decay collected, cooled, accelerated
and circulated in a decay ring Optimal
baseline 2000-3000 km
  • Neutrino
  • Superbeam
  • from SPL
  • nm from p decay,
  • energy
  • 250 MeV
  • Optimal baseline
  • for far detector
  • 130 km

3
Other Applications of the Proton Driver
  • Approved physics experiments
  • CERN Neutrinos to Gran Sasso (CNGS) increased
    flux ( 2)
  • Anti-proton Decelerator increased flux
  • Neutrons Time Of Flight (TOF) experiments
    increased flux
  • ISOLDE increased flux, higher duty factor,
    multiple energies...
  • LHC faster filling time, increased operational
    margin...
  • Future potential users
  • Conventional neutrino beam from the SPL
    super-beam
  • Second generation ISOLDE facility (EURISOL
    -like)
  • LHC performance upgrade beyond ultimate

4
The Team
Work going on since 1999
Neutrino Factory Working Group (http//nfwg.home
.cern.ch/nfwg/nufactwg/nufactwg.html)
Superconducting Proton Linac Working
Group (http//cern.web.cern.ch/CERN/Divisions/PS/
SPL_SG/)
Proton Driver Rings Working Group (http//hos.hom
e.cern.ch/hos/NufactWG/Pdrwg.htm)
Target Study Team
5
The SPL Working Group
REFERENCE
Conceptual Design of the SPL, a High Power
Superconducting Proton Linac at CERN Ed. M.
Vretenar, CERN 2000-012
6
The Superconducting Proton Linac Main Principles
? In line with modern High Power Proton
Accelerator projects (SNS, JKJ,) ? Re-use of
the LEP RF equipment (SC cavities, cryostats,
klystrons, waveguides, circulators, etc.)
The LEP klystron
Storage of the LEP cavities in the ISR tunnel
7
The Superconducting Proton Linac Design (1)
H- source, 25 mA 14 duty cycle
Cell Coupled Drift Tube Linac
Fast chopper (2 ns transition time)
  • 2.2 GeV energy
  • direct injection into PS
  • threshold for p production

new SC cavities b0.52,0.7,0.8 5-cell b 0.8
cavities replacing 4-cell b 1 cavities in the LEP
cryostat
  • RF system
  • freq. 352 MHz
  • amplifiers tetrodes and LEP klystrons

8
The SPL Design (2)
54 cryostats, 32 directly from LEP, the others
reconstructed
51 LEP-type klystrons (44 used in LEP)
9
SPL Beam Specifications
10
The Accumulator Compressor Scheme
Two Rings in the ISR Tunnel Accumulator 3.3 ms
burst of 144 bunches at 44 MHz Compressor Bunch
length reduced to 3 ns
11
Characteristics of the beam sent to the target
12
Layout on the CERN site

13
Cross section
14
SPL RD Topics
  • Minimise beam loss to avoid activation of the
    machine (losslt1 W/m)
  • Beam Dynamics studies, optimise layout and beam
    optics
  • Chopper structure to create a time distribution
    in the beam that
  • minimises losses in the accumulator
  • Travelling wave deflector with rise time lt2 ns
  • 3. Efficient room-temperature section (Wlt120 MeV)
  • CCDTL concept
  • 4. Development of SC cavities for blt1
  • Sputtering techniques
  • 5. Pulsing of LEP klystrons
  • Built for CW, operated at 50 Hz, 14 duty
  • 6. Pulsing of SC cavities and effects of
    vibrations on beam quality
  • Low power (feedback), high power (phase and
    amplitude
  • modulators) and active (piezos) compensation
    techniques

15
SPL RD Low Energy
Chopper structure
3 D view of a coupled cavity drift tube
module (CCDTL)
Scaled model (1 GHz) in test
  • Full performance prototype tested
  • Driver amplifier in development

16
SPL RD Low Beta SC Cavities
  • ? CERN technique of Nb/Cu sputtering
  • for b0.7, b0.8 cavities (352 MHz)
  • excellent thermal and mechanical stability
  • (very important for pulsed systems)
  • lower material cost, large apertures, released
  • tolerances, 4.5 ?K operation with Q 109

The b0.7 4-cell prototype
? Bulk Nb or mixed technique for b0.52 (one 100
kW tetrode per cavity)
17
SPL RD Pulsing of LEP Klystrons
RF output power (800 kW max.)
Mod anode driver
14/05/2001 - H. Frischholz
Þ LEP power supplies and klystrons are capable to
operate in pulsed mode after minor modifications
18
SPL RD RF power distribution field
regulation in the SC cavities
Effect on field regulation
Effect on the beam
  • Þ unsolved problem ! Needs work
  • (high power ph.ampl. modulators, piezos,)
  • Þ similar difficulties are likely in the muon
    accelerators!

19
Staging
  • Test of a 3 MeV H- injector
  • In collaboration with CEA-IN2P3 exploiting the
    IPHI set-up
  • 120 MeV H- linac in the PS South Hall
  • Goal increase beam intensity for CNGS and
    improve characteristics of all proton beams (LHC,
    ISOLDE)
  • Under study detailed design report with cost
    estimate in 2003
  • Needs new resources (collaborations, manpower,
    money)
  • Full SPL

20
The SPL Front-end (120 MeV) in the PS South Hall
(intermediate proton intensity increase)
PS
Beam dump
To the PSB
H- source
LEIR
  • Þ Increased brightness for LHC, 1.8 the flux to
    CNGS ISOLDE, (with upgrades to the PSB, PS
    SPS)
  • very cost-effective facility hall and
    infrastructure are available in the PS
  • all the RF is recuperated from LEP
  • shielding is done with LEP dipoles!

21
The 120 MeV Linac
75 m
(100 m available in PS South Hall)
22
Summary and Conclusion
  • The SPL design is improving, RD is going on
  • Work in progress on most items, based on
    collaborations
  • A staged approach is proposed
  • Feedback (and support !) is needed from potential
    users
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