Status of CTF3 Operation, Status of CTF3 Operation, update of experimental update of experimental program and schedule for program and schedule for 2011 2011 CTF3 committee 18.08.2011 Steffen Doebert BE/RF • Highlights and problems • Installation period in September • Rest of the year program
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Status of CTF3 Operation, update of experimental program and schedule for 2011
Status of CTF3 Operation, update of experimental program and schedule for 2011. Highlights and problems Installation period in September Rest of the year program. CTF3 committee 18.08.2011. Steffen Doebert BE/RF. Planning 2011. ✔. 3 GHz beam setup to CR initial beam to CLEX - PowerPoint PPT Presentation
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Status of CTF3 Operation, Status of CTF3 Operation, update of experimental update of experimental
program and schedule for program and schedule for 20112011
CTF3 committee 18.08.2011 Steffen Doebert BE/RF
• Highlights and problems• Installation period in September• Rest of the year program
Smoke in MKS02
One month stop
Planning 2011Planning 2011
1
3
4 5
2a
3 GHz beam setup to CRinitial beam to CLEXCALIFES setup
CR x4 combinationemittance studiescombined beam to CLEX
100 MV/m accelerationbreakdown kicksTBL deceleration(1-2 days for DB beam studies)
Test of new PETS on-off schemeTBL deceleration up to 8 PETS
ε < 150 mm mradlongitudinal studiesstability x8 combination(night running for BDR)
breakdown rate measurementsPETS / ACS
1
2
3
4
5
2a 1.5 GHz beam setupx8 combination(if TWT is available – only 1 operational)
>
Beam phase CSRrep. rate / losses night supervision
INSTALLATION TBL PETS
PETS on-off
today
>
✔✔
Gun
2
✔
✔
✔
✔
✔
✔
Drive Beam preparationDrive Beam preparation
• Made use of excellent factor 4 beam, 3 GHz, up to 14 A in CLEX
• Bunch length measurements in CR and CLEX with consistent results as well compared to rf measurements
• Ring optics studies in delay loop and combiner ring
• Frequent over night operation with some success
• 1,5 GHz factor 8 set up with 1.5 TWT’s, 19 A used in CLEX but clearly needs improvement. Got third TWT this week
• Consistency with power calibrations and acceleration
• Breakdown rate measurements established
• Breakdown kick measurements not yet successful might be limited by probe beam BPM resolution
• FLASH box installed
TBTS resultsTBTS results
Two beam acceleration measured with the probe Two beam acceleration measured with the probe beam (CALIFES) up to 150 MV/m, ~ 50 ns pulse beam (CALIFES) up to 150 MV/m, ~ 50 ns pulse
lengthlength
TBTS resultsTBTS results
Example of a two beam acceleration Example of a two beam acceleration measurementmeasurement
(probe beam at 2 Hz and drive beam at 1 Hz)(probe beam at 2 Hz and drive beam at 1 Hz)
TBTS resultsTBTS results
Well established two beam acceleration Well established two beam acceleration experimentsexperiments Calibration converging, structure correctly Calibration converging, structure correctly tunedtuned Interesting breakdown studies startedInteresting breakdown studies started
Last data point 88 MV/m, 2 10-5
TBTS resultsTBTS results
Breakdown location in the structure, AlexeyBreakdown location in the structure, Alexey
• Deceleration measurements at 14 A and 19 A with nicely consistent results
• BPM resolution measurements, visit from Juanjo and Gabriel
• Beam stability measurements
• Big effort on beam based alignment studies
• All 4 PETS produce power according to expectations up to 60 MW
TBL resultsTBL results
time
(n
s)
P/P0 (%)
TBL: P0=109.7 MeV/c
-10 0 10
500
600
700
500 600 700
0
10
20
30
I Be
am
(A
)
time (ns)
IBPM 1030
(A)
5 ISegDump
(A)
-10 0 10
0
0.5
1
P/P (%)
Ppeak
=109.9 MeV/c, PFWHH
=9.628%
500 600 700105
110
115
120P
pe
ak (
Me
V/c
)
time (ns)500 600 700
0
5
10
15
P
FW
HH
(%
)
Deceleration with 18 A, segmented dump measurement
TBL resultsTBL results
0 100 200 300 400 500108
110
112
114
116
118
120
122
time (ns)
de
ce
lera
tio
n (
Me
V)
Prediction from rf power
Prediction from beam currentSegmented dump measurement
Factor 8 combination ~ 18 A, form factor 0.85, 10% power calibration error
TBL resultsTBL results
10A three turns segmented dump,Compared to placet simulations, center energy shifted by 1 MeV
Luck shot ? In general we measure to high energy spread (combination error)
90 95 100 105 110 115 120 125 130 135-0.2
0
0.2
0.4
0.6
0.8
1
1.2
Energy (MeV)
Inte
nsity
(a.
u.)
Seqmented dump 10 A
Placet simulation 10 A
Reidar, Maja
TBL resultsTBL results
0 2 4 6 8 10 12 140
1
2
3
4
5
6
7
8
9
Beam Current (A)
Me
as
ure
d d
ec
ele
rati
on
(M
eV
)
Segmented dump measurement
Prediction form beam current
Have to assume 119 MeV initial energy, 117.5 measured 1% errorForm factor for predictions with current F=0.8 usedTo make the prediction from power fit, need to assume 10% calibration error
Pretty good agreement !
TBL resultsTBL results
5 10 15 20 25 300
5
10
15
20
25
BP
M r
esol
utio
n [u
m]
Beam Current [A] -30 -20 -10 0 10 20 300
2
4
6
8
10
12
14
(Measured - Predicted) beam position (m)
No
of p
ulse
s
BPS resolution study together with Junajo (IFIC) and Gabriel (UPC) Vertical resolution, 13 A, BPS0510, 8.7 m
TBL resultsTBL resultsSophisticated Beam based alignment studies by
Guido and Eduardo
• Quadrupole center and its movement, use Quad movers and change strength• One to one steering, response matrix measurements• BPM and Quad misalignment using different phase advance optics