Active Coil Cancellation on a LCLS-II CM...2018/02/06 · Saravan K. Chandrasekaran, on behalf of...
Transcript of Active Coil Cancellation on a LCLS-II CM...2018/02/06 · Saravan K. Chandrasekaran, on behalf of...
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Saravan K. Chandrasekaran, on behalf of the LCLS-II team
TESLA Technology Collaboration (TTC) Meeting, INFN, Italy
6 February 2018
Active Coil Cancellation on a LCLS-II CM
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1. Cryomodules magnetize during assembly & shipping
– In-situ demagnetization an effective method to mitigate this
Motivation
6 Feb '18 S.K. Chandrasekaran | Active coil cancellation on a LCLS-II CM2
TUPLR027 - LINAC 2016, TTC – CEA 2016, TTC – MSU 2017,IEEE T Appl Supercond 2017, arXiv:1507.06582
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2. Longitudinal magnetic shielding of TESLA type CMs not as
efficient as transverse shielding
– Simulation: 150 mG longitudinal ambient field
Motivation
6 Feb '18 S.K. Chandrasekaran | Active coil cancellation on a LCLS-II CM3
arXiv:1507.06582, TTC – SLAC 2015
Enhancement due to end effects of vacuum vessel & warm shield (when present)
Shield µ = 10k; an exaggeration
Field plotted of line containing top equators
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3. Magnetic fields at accelerator tunnels typically different from
assembly & test locations
– Very true for LCLS-II (FNAL & JLab assembly; SLAC tunnel)
– True for ILC as well
– Empty SLAC tunnel fields – may get worse with installation
Motivation
6 Feb '18 S.K. Chandrasekaran | Active coil cancellation on a LCLS-II CM4
FNAL/SLAC internal docs, IPAC 2016
CMTS SLAC
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4. Cavities may not expel magnetic flux due to material
– Fast cool down not a solution for all
Motivation
6 Feb '18 S.K. Chandrasekaran | Active coil cancellation on a LCLS-II CM5
Sam Posen’s talk – TTC – INFN 2018 FNAL/SLAC internal
CM# F1.3-02
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• 5 fluxgates
– Cavities 1, 2, 5, 7, 8
– Mounted between the two
layers of magnetic shields
– Parallel to cavity axis
Location of fluxgates in production CMs
6 Feb '18 S.K. Chandrasekaran | Active coil cancellation on a LCLS-II CM6
Layer 2
Layer 1 Fluxgate
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1. Demagnetize F1.3-04 at 300 K after installation at CMTS
2. Determine currents needed to magnetize CM to ~5 mG (avg)
level
3. Repeat step 1
4. Slow (3 g/s) cooldown CM & measure baseline Q0 at 2 K
5. Re-magnetize CM at 25 K to ~5 mG level
6. Slow (3 g/s) cool down CM from 25 K & measure Q0 at 2 K
7. Use active cancellation to negate magnetic field at 45 K
o Tune the three sets of coils independently to reduce fields to zero
8. Slow (3 g/s) re-cool CM from 45 K & re-measure Q0
9. Fast (32 g/s) re-cool CM from 25 K & re-measure Q0
10.Warm up CM
11.Demagnetize CM at 300 K
Sequence of tests
6 Feb '18 S.K. Chandrasekaran | Active coil cancellation on a LCLS-II CM7
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• Hysteresis observed
– magnetic shielding & carbon steel “magnetized”
• CM then re-demagnetized, slow cooled, Q measured
Determining 5 mG magnetization at 300 K
6 Feb '18 S.K. Chandrasekaran | Active coil cancellation on a LCLS-II CM8
+ ve: due to appl. current
- ve: 0 A appl. currentMain coil 5 A + End coils 0.75 A 5 mG residual field
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• Hysteresis observed
– magnetic shielding & carbon steel “magnetized”
• CM then re-demagnetized, slow cooled, Q measured
• Avg Q0 = 2.9×1010 baseline SCD Q
Determining 5 mG magnetization at 300 K
6 Feb '18 S.K. Chandrasekaran | Active coil cancellation on a LCLS-II CM9
+ ve: due to appl. current
- ve: 0 A appl. currentMain coil 5 A + End coils 0.75 A 5 mG residual field
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1. Demagnetize F1.3-04 at 300 K after installation at CMTS
2. Determine currents needed to magnetize CM to ~5 mG (avg)
level
3. Repeat step 1
4. Slow (3 g/s) cooldown CM & measure baseline Q0 at 2 K
5. Re-magnetize CM at 25 K to ~5 mG level
6. Slow (3 g/s) cool down CM from 25 K & measure Q0 at 2 K
7. Use active cancellation to negate magnetic field at 45 K
o Tune the three sets of coils independently to reduce fields to zero
8. Slow (3 g/s) re-cool CM from 45 K & re-measure Q0
9. Fast (32 g/s) re-cool CM from 25 K & re-measure Q0
10.Warm up CM
11.Demagnetize CM at 300 K
Sequence of tests
6 Feb '18 S.K. Chandrasekaran | Active coil cancellation on a LCLS-II CM10
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• Used currents
determined at 300 K
as guideline
– Magnetic shield µ
varies with T
• Magnetized to
– Cav1 = -11.59 mG
– Cav2 = -5.97 mG
– Cav5 = -4.40 mG
– Cav7 = -5.05 mG
– Cav8 = -5.57 mG
Magnetizing F1.3-04 at 25 K
6 Feb '18 S.K. Chandrasekaran | Active coil cancellation on a LCLS-II CM11
• CM then slow cooled, Q measured
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• Used currents
determined at 300 K
as guideline
– Magnetic shield µ
varies with T
• Magnetized to
– Cav1 = -11.59 mG
– Cav2 = -5.97 mG
– Cav5 = -4.40 mG
– Cav7 = -5.05 mG
– Cav8 = -5.57 mG
Magnetizing F1.3-04 at 25 K
6 Feb '18 S.K. Chandrasekaran | Active coil cancellation on a LCLS-II CM12
• CM then slow cooled, Q measured: Avg Q0 = 1.74×1010
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1. Demagnetize F1.3-04 at 300 K after installation at CMTS
2. Determine currents needed to magnetize CM to ~5 mG (avg)
level
3. Repeat step 1
4. Slow (3 g/s) cooldown CM & measure baseline Q0 at 2 K
5. Re-magnetize CM at 25 K to ~5 mG level
6. Slow (3 g/s) cool down CM from 25 K & measure Q0 at 2 K
7. Use active cancellation to negate magnetic field at 45 K
o Tune the three sets of coils independently to reduce fields to zero
8. Slow (3 g/s) re-cool CM from 45 K & re-measure Q0
9. Fast (32 g/s) re-cool CM from 25 K & re-measure Q0
10.Warm up CM
11.Demagnetize CM at 300 K
Sequence of tests
6 Feb '18 S.K. Chandrasekaran | Active coil cancellation on a LCLS-II CM13
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• Goal: lower fields to ‘before magnetization’ level
• 3 independent coils to tune
Active cancellation at 25 K
6 Feb '18 S.K. Chandrasekaran | Active coil cancellation on a LCLS-II CM14
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1. Demagnetize F1.3-04 at 300 K after installation at CMTS
2. Determine currents needed to magnetize CM to ~5 mG (avg)
level
3. Repeat step 1
4. Slow (3 g/s) cooldown CM & measure baseline Q0 at 2 K
5. Re-magnetize CM at 25 K to ~5 mG level
6. Slow (3 g/s) cool down CM from 25 K & measure Q0 at 2 K
7. Use active cancellation to negate magnetic field at 45 K
o Tune the three sets of coils independently to reduce fields to zero
8. Slow (3 g/s) re-cool CM from 45 K & re-measure Q0
9. Fast (32 g/s) re-cool CM from 25 K & re-measure Q0
10.Warm up CM
11.Demagnetize CM at 300 K
Sequence of tests
6 Feb '18 S.K. Chandrasekaran | Active coil cancellation on a LCLS-II CM15
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Q0 after each test step
6 Feb '18 S.K. Chandrasekaran | Active coil cancellation on a LCLS-II CM16
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• Active cancellation + 32 g/s greatest Q0 at CMTS
Q0 after each test step
6 Feb '18 S.K. Chandrasekaran | Active coil cancellation on a LCLS-II CM17
≈2×
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• Active cancellation lowers available field increasing Q0
Active cancellation & poor expelling CMs
6 Feb '18 S.K. Chandrasekaran | Active coil cancellation on a LCLS-II CM18
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• Active cancellation a tool to in-situ lower magnetic fields
at the cavity
– Demonstrated by increased Q0 after cancellation with slow
cooldown
– Best Q0 for was with active cancellation & 32 g/s FCD
– Insurance technique for better performing CMs
• Especially for accelerator tunnels with greater longitudinal fields
• For CMs with poor flux expelling cavities
• In the event fast cooldown does not provide sufficient ∆T for all
cryomodules
• Fluxgates critical! Must be integrated in all CMs
– Would not be able to observe fields without them
Summary & conclusions
6 Feb '18 S.K. Chandrasekaran | Active coil cancellation on a LCLS-II CM19
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6 Feb '18 S.K. Chandrasekaran | Active coil cancellation on a LCLS-II CM20
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• Measured in
empty tunnel
– Max = 293 mG
– Avg ≈ 100 mG
• Fields during
installation may be
worse due to new
components in
tunnel
SLAC tunnel Z-component magnetic fields
6 Feb '18 S.K. Chandrasekaran | Active coil cancellation on a LCLS-II CM21
Acceptable level