Christine Petit-Jean-Genaz, CERN EPAC Conferences Coordinator JACoW Secretary
The ATLAS Energy Upgrade Cryomodule - JACoW …epaper.kek.jp/SRF2009/talks/moocau04_talk.pdf2...
Transcript of The ATLAS Energy Upgrade Cryomodule - JACoW …epaper.kek.jp/SRF2009/talks/moocau04_talk.pdf2...
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The ATLAS Energy Upgrade Cryomodule
Joel D. Fuerst
Physics Division
21SEP09
SRF2009
MOOCAU04
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Introduction
A new cryomodule containing 7
b=0.15 quarter-wave cavities is
now operating with beam in the
ATLAS heavy ion linac,
increasing energy by 30-40%.
This represents the first
successful demonstration of
separate cavity and insulating
vacuum systems for a low-b
cryomodule.
Maximum voltages of 3.75 MV
per cavity have been achieved.
~1 MV/cavity is today’s state-of-
the-art for operations.
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Features
Optimized electromagnetic and structural
design of the cavities
Cancellation of beam steering effect due to
the RF field in the QWR
State-of-the-art surface processing, clean-
room assembly, low-particulate pumping
and venting systems (THPPO029)
Top-loaded cryomodule design which
minimizes components involved in clean
assembly
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Location in the ATLAS Tunnel
30 m
40 MV
4.5 m
14.5 MV
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Section View
7 cavities installed
Beam valves pass through angled endwalls of box
4.5 m
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Cavity Parameters
Frequency 109.125 MHz
beta 0.15
U0 37* J
Active length 25 cm
EPEAK 48* MV/m
BPEAK 88* mT
G 40 Ohm
Rsh/Q 548 Ohm
*at 3.75 MV/cavity = 15 MV/madjustable
input coupler
slow
tuner
VCX
Fast tuner
steering
correction
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Accelerating Fields
15 MV/m achieved on-line in 2 cavities:
– VMAX = 3.75 MV, EPEAK = 48 MV/m, BPEAK = 88 mT
Cavity Quench Limit - Online
0
2
4
6
8
10
12
14
16
1 2 3 4 5 6 7
cavity #
EA
CC (
MV
/m)
Q vs. E for Cavity #4
1.0E+08
1.0E+09
1.0E+10
1.0E+11
0 5 10 15
EACC (MV/m)
Q0
4.5 K
4.2 K
1.85 K
11.7
MV/m
avg.
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Tuners & Microphonics
(TUPPO031)
VCX
window
40 Hz
Measured cavity microphonics – simultaneous
operation at 2 MV/cavity (avg.)Slow Tuner Range
109105
109110
109115
109120
109125
109130
109135
109140
0 10 20 30 40 50 60 70 80
Time [s]
Fre
qu
en
cy
[k
Hz]
cavity freq
target freq
1.2 kHz/s slew rate on-line
to date no cavities have lost lock due to
microphonics
sRMS=1-2 Hz
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Beam-Based Performance Data
Accelerate Carbon +6 beam through
the cryomodule
Measure beam energy via time-of-flight
Use TRACK code to fit accelerating
voltage to TOF data
Power dissipation to LHe measured at
the refrigerator (dynamic load):
– 55W at 14.5 MV (Q = 1.0 109)
Cavity
Number
Beam
Energy
[MeV]
Cavity
Voltage
[MV]
1 174.0 1.96
2 184.5 1.89
3 196.1 2.13
4 208.5 2.29
5 219.7 2.12
6 229.9 1.92
7 241.5 2.24
Total voltage 14.5
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Maximizing Performance
VCX fast tuner is 30-year old
technology
VCX limit = 2.3 MV/cavity (avg.)
Cavity performance has
outstripped VCX capability
VCX will not be part of future
designs
Performance increase possible:
– Low measured microphonics
– Reduce VCX tuning window
Cavity
Number
Cavity
Voltage
[MV]
Max.
Achievable
Voltage [MV]
1 1.96 2.88
2 1.89 2.75
3 2.13 3.75
4 2.29 3.13
5 2.12 2.75
6 1.92 2.08
7 2.24 3.75
Total voltage 14.5 21.1
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RF System
109 MHz, 250 W solid-state water-cooled
amplifiers + LLRF for 8 cavities in 1 rack
I&Q type LLRF controller has the following
feedback loops:
– frequency - use slow tuner
– amplitude - adjust input drive power
– phase - use VCX
Slow and Fast tuner controllers
Voltage pulsers are used to switch VCX diodes
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Cavity Fabrication
Die hydroformed RRR300 niobium
Conventional machining/wire EDM
EBW, electropolish, flash BCP
HPWR, clean handling
(THPPO066)hydroforming
electron beam welding electropolish
Wire EDM
flash BCP
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String Assembly (inside clean room)
Cavities pre-assembled w/coupler & VCX
Cavity assemblies installed on support frame
Inter-cavity bellows & vacuum manifold installed
Beam valve spools installed
2 people, 1 month to complete
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Final Assembly (external to clean room)
clean cavity string dressed string suspended from lid module closure
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Tolerances not critical for ATLAS
Installation alignment in the tunnel: ± 0.5 mm
Alignment crosshairs referenced to beam centerline
Viewports on vacuum vessel endwalls
Check with beam: no observed losses
Alignment
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Cooldown
LHe:
– Cavities
– Solenoid
– 15W static
LN2:
– Thermal
shield
– Coupler
intercepts
– Beam valve
intercepts
– VCX fast
tuners
– 200W static
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Summary
Represents the first full implementation of clean techniques for low-b
cavities
Provides a factor 3 performance gain over existing ATLAS technology
Cryomodule design is a strong basis for next generation ion linacs
Further developments will maximize the potential of state-of-the-art
QWRs
– TUPPO016