beam instrumentations: requirements for proton and electron beams c. bracco, e. gschwendtner, b....
TRANSCRIPT
Beam Instrumentations: Requirements for Proton and Electron Beams
C. Bracco, E. Gschwendtner, B. Goddard, M. Meddahi, A. Petrenko, F. Velotti
Acknowledgements: WP3 and WP4 members, P. Muggli and A. Caldwell
Outlines Introduction
Layout and optics Electron and proton beam integration (side-injection, on-axis injection)
Electron beam line Beam characteristics Lattice Wish list for diagnostics
Proton beam line Beam characteristics Lattice Wish list for diagnostics
Summary
Reminder
Three beams into the game!
7.16 %
Phase 1 (2016): protons + laser beam prove SMI
Phase 2 (2017): protons + laser + electron beam probe acceleration
Proton and Electron Beam Common beam line last ~4.4 m before plasma cell
C. Magnier, F. Galleazzi
Proton and Electron Beam15
-25
mm
20 m
m
10 m
40 m
m
<0.5 mm
p
e
10 m
40 m
m
pe
40 m
m
Side injection
On axis injection
20 m
m24
mm
s=801mOff axis!!
Electron Beam Line
Momentum [GeV/c] 10-20 (nom. 15)
# bunches 1
p+ per bunch 2.0 × 109
Current [nC] 0.3
Norm. Emittance [mm mrad]
2
e-
e-p+
On-axis inj
Quads inside the connection tunnel
Final triplet
* *tot. envelope: 2x Envelope Hor/Verbeam pipes Ø: 15-25 mm
F. m. Velotti
Electron Beam Line
1. Emittance measurement at beginning of the line Available space (~50 cm) between elements in the
connection tunnel Vertical dispersion non-zero
2. Beam size at the plasma cell3. BPMs for correction assuming 1vs1 strategy
14 (1 per quad) + 2 before the plasma cell 6 of them in the common part with p+
4. Momentum measurements Spectrometer at the end of RF gun? At one of the h-
bends?
5. Bunch length measurements 6. Current measurements
F. m. Velotti
Electron Beam Line
1. Emittance measurement at beginning of the line Available space (~50 cm) between elements in the
connection tunnel Vertical dispersion non-zero
2. Beam size at the plasma cell3. BPMs for correction assuming 1vs1 strategy
14 (1 per quad) + 2 before the plasma cell 6 of them in the common part with p+
4. Momentum measurements Spectrometer at the end of RF gun? At one of the h-
bends?
5. Bunch length measurements 6. Current measurements
Measurements
Precision Position
Emittance +/- 200 m Connection tunnel
Beam size +/- 50 m Before plasma cell
Beam position +/- 200 m+/- 50 m
@ quads and before plasma cell
Momentum +/- 7.5 keV horizontal bends
Current < 1% Before/after plasma cell
F. m. Velotti
Proton Beam
CNGS AWAKENominal Setup
Momentum [GeV/c] 400 400 400
# bunches 2100 1 1
p+ per bunch 1.05 × 1010 3 × 1011 5 × 109
Repetition rate [s] 6 30 ---
Norm. Emittance [mm mrad]
~8 2-3.5 1-2
Specifications (based on LHC TL and HiRadMat requirements) for the unchanged part of the beam line (everything installed upstream of BTVG.412108) :
•BPM:• 0.2 mm total accuracy • Resolution: 0.1 mm (within 20 mm radius)
•BCT:• 1->2% absolute precision
•BTV: • Beam size precision: 0.1 mm
•BLM:• Detect local loss of 5e8 charges
Diagnostics for single bunches!
~74 times lower intensity than
CNGS
Changes in the Proton Beam Line
Instrumentation presently installed:
BTVG.412108BPG.412211BLM.412243BPG.412321BPG.412424BTVG.412424BFCT.412425BTVG.412434BLMr.412445/BLMl.412445BPG.412444BTV.412445BPKG.412449
Target Area (not possible to reuse)
Possible to reuse? (provided required modifications)
~ 90 m
What is Needed in the “New Line”?
BPG
BPG
BPG
BPG
BPG
BPG
What is Needed in the “New Line”?
BPG
BPG
BPG
BPG
BPG
BPG
BPG
Proton and Laser Beam
Plasma cell
Not real bottleneck
Laser
Prot
on
± 8 mm
± 6 mm
~7 mm (it must be > 5 mm!)
BPG
new
BPG
BPG
new
BPG
What is Needed in the “New Line”?
BPG
BPG
BPG
BPG
BPG
BPG
BPG
BPG
BPG
BPG
BPG
Required Pointing Accuracy
Required Pointing Accuracy
Beam Envelope at BPMs
s**[m]
Tot. Env. X[mm]
Tot. Env. Y[mm]
Beam Pipe[mm]
Accuracy[mm]
BPG.412211 749.420 16.5 31.1 60 0.2
BPG.412321 777.575 24.0 14.0 50* 0.2
BPG.412424 785.025 15.0 13.9 50* 0.2
BPG.412xxx 788.025 13.2 12.3 50* 0.2
BPG.412xxx 798.825 7.0 6.7 40 0.05
BPG.412xxx 805.325 4.8 4.8 20/40*** 0.05
BPG.412xxx 815.825 9.2 8.3 40 0.05
BPG.412xxx 822.825 13.4 12.0 40 0.05
** end position * 50 mm (inner diameter) vacuum chamber for new B190 dipoles, to be checked if still compatible with 60 mm aperture at BPMs (J. Hansen)*** side injection/ on axis injection
Downstream of plasma cell
Interlocked!
Extraction from SPS must be stopped if beyond tolerances: 100 m and 15 rad
What is Needed in the “New Line”?
BTV
BTV
BTV
BTV
BTV
Proton Beam Line Optics Requirements
Round beam with a beam size @ plasma cell entrance 1 = 200 ± 20 m
Achieved: 1 = 202 m
Beam Envelope at BTVs
S [m]
Tot. Env. X[mm]
Tot. Env. Y[mm]
Beam Pipe[mm]
Accuracy[mm]
BTV.412108 740.215 13.2 30.6 60 0.2
BTV.412xxx 804.675 4.8 4.8 20/40* <0.05
BTV.412xxx 820.675 12.1 10.8 40 <0.05Downstream of plasma cell
The last two BTVs have to be used also for the proton and laser beam setup (position: two beams coaxial) a screen has to be added for the laser beam (reduced power during setup, see Mikhail’s talk)
The Monitor downstream can be used also for the e-beam
Position and beam size measurements
* side injection/ on axis injection
What is Needed in the “New Line”?
BLM
BLM
BLM @ location of vertical bottleneck (5e8 charges)BCT: 1-2% absolute precision
BC
T
Summary 1/2 Electron beam line:
Completely new diagnostics to measure: Emittance Energy Beam size @ plasma cell Beam position Bunch length Current
Proton beam line: Adapt existing diagnostics for AWAKE operation (1 bunch) up to
BTVG.412108 (excluded) + reuse part of remaining diagnostics Five additional BPM Two additional monitors for beam size measurements of the p
beam and position measurements for p and laser
Summary 1/2
Main challenges: Coexistence of the e an p beams Reduced beam pipe diameters (15-24 mm) Almost no space around the beam pipes in common part of
the lines (we’ll try to optimize the lattice): How to implement pickups for position measurements? How to perform beam profile measurements?
Required very high accuracy in position measurements for p and laser beam
Low electron energy and current The option of having a unique design for on axis and side-
injection is being evaluated: double diagnostics at the end of the line…..