mm planning for hilumi-lhc l. fiscarelli m. buzio, o. dunkel, t. zickler 4 march 2015
TRANSCRIPT
MM planning for HiLumi-LHC
L. Fiscarelli
M. Buzio, O. Dunkel, T. Zickler
4 March 2015
Introduction
Tentative planning of MM tools required for HL-LHC WP3 IR Magnets WP11 11-T dipole
Based on the information collected so far Official MM requests (MQXF) Other communications
Some technical information is missing
Only required systems (or sub-systems) considered Manpower not included Budget not included
It is a first iteration, has to be approved
Measurement techniques for SC magnets
At ambient temperature (warm)
Rotating coils (TF, multipoles, magnetic angle, magnetic center) AC mole (magnetic axis, cold bore geometrical axis) Single Stretched Wire in AC mode (TF, magnetic angle, magnetic axis)
At cryogenic temperature (cold)
Without anti-cryostat Rotating coils (TF, multipoles)
With anti-cryostat Rotating coils (TF, multipoles, magnetic angle, magnetic center) Single Stretched Wire in DC mode (TF, magnetic angle, magnetic axis) Hall-probe based systems (local field, fast transients, polarity check)
Quench antennas
Measurements on materials
Magnet families
MBH 11-T MQXF Q1/Q3 MQXF Q2 MCBX A/B MBXF D1 MCBCR D2 MQYY Q4 HO correctors MCBRB
MBH (11 T) – WP11
For 2-m long models: 1 warm mole + spares already in production 2 shafts + spares for vertical cryostat already in production New acquisition system + motors for MM at cold
For prototypes and series New complete system (long bench + new shaft) for MM at warm Reuse of existing ceramic shafts for MM at cold
Anti-cryostat required Measurements with SSW (TF, angle)? Cold bore geo-magnetic measurements (AC-mole)?
Mag
net n
ame
Type
Stat
us
Qty
Whe
n (fi
rst m
agne
t)
Mag
net t
ype
(D,Q
,H)
Ape
rtur
e (m
m)
Free
ape
rtur
e (m
m)
Tota
l len
gth
(m)
Dou
ble
aper
ture
Fiel
d/G
radi
ent
Supp
lied
by
Mea
sure
d at
Cold
/War
m
Test
type
Prop
osed
sfh
aft
Shaft
Benc
h
Mot
or
Elec
tron
ics
MBHSP model 4 2015 n 3MBHDP model 2 2015 y 2 1
proto 1 2017 y 1 1 1 1series 4+2 2018 y ?
MBHSP model 2+4 2018 nMBHDP model 1+2 2018 y
proto 1+1 2019 yseries 8+8+4+8 2020 y ?
52 4 1 3 2Total
MBH 6.3 H
prototypes and seriesExisting SHAFT for LHC QUADRUPOLES
short model2x Shaft R22 / 7 seg / vertical + 1x short mole
11 TCERN
CERN C/WV
54
Pha
se 1
Pha
se 2
D11 D 54 502
V
HD 50
2
6.3CERND11
MBH
CERN11 T C/W
MQXF Q1/Q3
MM done elsewhere No MM system is required
Mag
net n
ame
Type
Stat
us
Qty
Whe
n (fi
rst m
agne
t)
Mag
net t
ype
(D,Q
,H)
Ape
rtur
e (m
m)
Free
ape
rtur
e (m
m)
Tota
l len
gth
(m)
Dou
ble
aper
ture
Fiel
d/G
radi
ent
Supp
lied
by
Mea
sure
d at
Cold
/War
m
Test
type
Prop
osed
sfh
aft
Shaft
Benc
h
Mot
or
Elec
tron
ics
model 2 2015 1.5 m 140 T/m US US Vproto 3 4.3 m 140 T/m US ? Vseries 10 4.3 m 140 T/m US ? H
15 0 0 0 0
MM in USQ 150 120 n
Total
MQXF Q1/Q3
MQXF Q2
For 2-m long models: At warm
Sliding mole R45 - 130x3 mm At cold
Shaft R45 – 420x5 mmFor prototypes and series magnets:
At warm Sliding bench like the one in 927? Magnetic axis measurements?
At cold new shafts (complete system) SSW measurements (gradient, angle, axis)? Anti-cryostat?
Mag
net n
ame
Type
Stat
us
Qty
Whe
n (fi
rst m
agne
t)
Mag
net t
ype
(D,Q
,H)
Ape
rtur
e (m
m)
Free
ape
rtur
e (m
m)
Tota
l len
gth
(m)
Dou
ble
aper
ture
Fiel
d/G
radi
ent
Supp
lied
by
Mea
sure
d at
Cold
/War
m
Test
type
Prop
osed
sfh
aft
Shaft
Benc
h
Mot
or
Elec
tron
ics
model 2 2016 2.0 V Shaft R45 - vertical - 5 seg. (MQXC)proto 2 2017 7.0 H 1 1 1 1series 10 2019 7.0 H 1 1 1 1
14 2 2 2 2
Anticryostat at cold?Something like 927 at warm?
140 T/mQ 120
Total
MQXF Q2 150 n CERN C/WCERN
Measurement radius of 45 mm suitable for Rref of 60 mm ?
MCBX
For MCBXA prototype and series magnets At warm
Sliding bench like the one in 927to be sent in Spain ???
At cold New shaft for vertical cryostat Back-up solution shaft R45 – 420x5 mm
For MCBXB series magnets At warm
Same as MCBXA At cold
New shaft for vertical cryostat
Mag
net n
ame
Type
Stat
us
Qty
Whe
n (fi
rst m
agne
t)
Mag
net t
ype
(D,Q
,H)
Ape
rtur
e (m
m)
Free
ape
rtur
e (m
m)
Tota
l len
gth
(m)
Dou
ble
aper
ture
Fiel
d/G
radi
ent
Supp
lied
by
Mea
sure
d at
Cold
/War
m
Test
type
Prop
osed
sfh
aft
Shaft
Benc
h
Mot
or
Elec
tron
ics
proto 1 2016 1.50 2.1 T CIEMAT C/W? V New shaft 1 1 1 1series 10 2019 1.50 2.1 T Industry C (CERN), W ? V
MCBXB series 6 2018 2.50 2.1 T Industry C (CERN), W ? V New shaft 117 2 1 1 1
150 120 n
Total
MCBXMCBXA
CERND
Required accuracy on TF? Do we need anti-cryostat?
MBXF
MM done elsewhere No MM system is required
Mag
net n
ame
Type
Stat
us
Qty
Whe
n (fi
rst m
agne
t)
Mag
net t
ype
(D,Q
,H)
Ape
rtur
e (m
m)
Free
ape
rtur
e (m
m)
Tota
l len
gth
(m)
Dou
ble
aper
ture
Fiel
d/G
radi
ent
Supp
lied
by
Mea
sure
d at
Cold
/War
m
Test
type
Prop
osed
sfh
aft
Shaft
Benc
h
Mot
or
Elec
tron
ics
model 2 2015 2.20 5.6 T V mm in KEK, no equipment from CERN neededseries 6 2017 6.50 5.6 T H mm in KEK, no equipment from CERN needed
8 0 0 0 0Total
MBXF D1 D 150 120 n KEK KEK
MCBCR D2
For the model Why not measure the model at CERN ? One shaft for warm and cold (?) or two systems?
For the prototype and series magnets At warm
A new complete system to be sent to industry At cold
New shafts R40 (multi-segment) Anti-cryostat
Mag
net n
ame
Type
Stat
us
Qty
Whe
n (fi
rst m
agne
t)
Mag
net t
ype
(D,Q
,H)
Ape
rtur
e (m
m)
Free
ape
rtur
e (m
m)
Tota
l len
gth
(m)
Dou
ble
aper
ture
Fiel
d/G
radi
ent
Supp
lied
by
Mea
sure
d at
Cold
/War
m
Test
type
Prop
osed
sfh
aft
Shaft
Benc
h
Mot
or
Elec
tron
ics
model 1 2016 1.80 4.5 T Industry INFN Milano C/W (INFN Milano) V New shaft R40 cold and warm 1 1 2 1proto 1 2018 8.10 4.5 T Industry CERN C/W H ANTI-CRYOSTAT + new long shafts 1series 6 2020 8.10 4.5 T Industry CERN C/W H System for warm MM to industry 1 1 1 1
8 3 2 3 2
y
Total
MCBCR D2 D 105 80
MQYY
For one-aperture model At warm
R30 mole + existing sliding bench At cold
New shafts + system to CEAFor two-aperture model
At warm New shaft + sliding system to industry
At cold Same as before
For series magnets At warm
Same as model At cold
New shafts 4.1-m long to CEA SSW? Axis?
Required accuracy on TF? Do we need anti-cryostat?
Mag
net n
ame
Type
Stat
us
Qty
Whe
n (fi
rst m
agne
t)
Mag
net t
ype
(D,Q
,H)
Ape
rtur
e (m
m)
Free
ape
rtur
e (m
m)
Tota
l len
gth
(m)
Dou
ble
aper
ture
Fiel
d/G
radi
ent
Supp
lied
by
Mea
sure
d at
Cold
/War
m
Test
type
Prop
osed
sfh
aft
Shaft
Benc
h
Mot
or
Elec
tron
ics
model 1 2016 1.70 n 145 T/m Saclay C at Saclay / W at CERN V shaft R30 vertical cold + warm mole 2 1 2 1model 1 2017 1.70 y 145 T/m Industry C at Saclay / W in industry V warm mole 1series 6 2019 4.10 y 115 T/m Industry C at Saclay / W in industry V shaft 4.1 m for cold 1 1 1 1
8 4 2 3 2Total
Saclay (cold)MQYY Q4 90 70Q
Correctors
A complete system (2-m long R60 shaft + motor + acquisition system) to INFN No MM at warm Several magnets in the same run? No MM in the final assembly?
Mag
net n
ame
Type
Stat
us
Qty
Whe
n (fi
rst m
agne
t)
Mag
net t
ype
(D,Q
,H)
Ape
rtur
e (m
m)
Free
ape
rtur
e (m
m)
Tota
l len
gth
(m)
Dou
ble
aper
ture
Fiel
d/G
radi
ent
Supp
lied
by
Mea
sure
d at
Cold
/War
m
Test
type
Prop
osed
sfh
aft
Shaft
Benc
h
Mot
or
Elec
tron
ics
proto 1 2017 INFN Milanoseries 6 Industryproto 1 2015 INFN Milanoseries 12 2018 Industryproto 1 2016 INFN Milanoseries 12 2018 Industryproto 1 2016 INFN Milanoseries 12 2018 Industryproto 1 2017 INFN Milanoseries 6 2018 Industryproto 1 2017 INFN Milanoseries 6 2018 Industry
60 1 0 1 1
0 1 1
Total
INFN Milano C V universal shaft 1
0.15
0.15
0.15
0.40
0.15
nh
h
h
h
150 120
MCTX
MCTSX
quad
sext
oct
dec
dode
dode
MCSX3/MCSSX3
MCOX3/MCOSX3
MCDX3/MCDSX3
h
MQSX3 q 0.90
MCBRB
For the prototype At warm
Existing sliding system At cold
New shafts R40 vertical. Required accuracy?For series
At warm No measurement? Otherwise system to industry
At cold Same as proto
Mag
net n
ame
Type
Stat
us
Qty
Whe
n (fi
rst m
agne
t)
Mag
net t
ype
(D,Q
,H)
Ape
rtur
e (m
m)
Free
ape
rtur
e (m
m)
Tota
l len
gth
(m)
Dou
ble
aper
ture
Fiel
d/G
radi
ent
Supp
lied
by
Mea
sure
d at
Cold
/War
m
Test
type
Prop
osed
sfh
aft
Shaft
Benc
h
Mot
or
Elec
tron
ics
D2 correctors proto 1 2018 1.80 y 3 T CERN C/W V new shafts for cold test 1Q4 correcotors series 18 2018 1.80 y 3 T Industry C V warm?
19 1 0 0 0
MCBRB
Total
D 105 80 CERN
Putting it all together
Mag
net n
ame
Type
Stat
us
Qty
Whe
n (fi
rst m
agne
t)
Tota
l len
gth
(m)
Dou
ble
aper
ture
Supp
lied
by
Mea
sure
d at
Cold
/War
m
Test
type
Prop
osed
sfh
aft
Shaft
s
Benc
hes
Mot
ors
Elec
tron
ics
MBHSP model 4 2015 n 2MBHDP model 2 2015 y 2 1
proto 1 2017 y 1 1 1 1series 6 2018 y ?
MBHSP model 6 2018 nMBHDP model 3 2018 y
proto 2 2019 yseries 28 2020 y ?model 2 2015 1.5 m US US Vproto 3 4.3 m US ? Vseries 10 4.3 m US ? Hmodel 2 2016 2.0 V Shaft R45 - vertical - 5 seg. (MQXC)proto 2 2017 7.0 H 1 1 1 1series 10 2019 7.0 H 1 1 1 1proto 1 2016 1.50 CIEMAT C/W? V New shaft 1 1 1 1series 10 2019 1.50 Industry C (CERN), W ? V
MCBXB series 6 2018 2.50 Industry C (CERN), W ? V New shaft 1model 2 2015 2.20 V mm in KEK, no equipment from CERN neededseries 6 2017 6.50 H mm in KEK, no equipment from CERN neededmodel 1 2016 1.80 Industry INFN Milano C/W (INFN Milano) V New shaft R40 cold and warm 1 1 2 1proto 1 2018 8.10 Industry CERN C/W H ANTI-CRYOSTAT + new long shafts 1series 6 2020 8.10 Industry CERN C/W H System for warm MM to industry 1 1 1 1model 1 2016 1.70 n Saclay C at Saclay / W at CERN V shaft R30 vertical cold + warm mole 2 1 2 1model 1 2017 1.70 y Industry C at Saclay / W in industry V warm mole 1series 6 2019 4.10 y Industry C at Saclay / W in industry V shaft 4.1 m for cold 1 1 1 1proto 1 2017 INFN Milanoseries 6 Industryproto 1 2015 INFN Milanoseries 12 2018 Industryproto 1 2016 INFN Milanoseries 12 2018 Industryproto 1 2016 INFN Milanoseries 12 2018 Industryproto 1 2017 INFN Milanoseries 6 2018 Industryproto 1 2017 INFN Milanoseries 6 2018 Industry
D2 correctors proto 1 2018 1.80 y CERN C/W V new shafts for cold test 1Q4 correcotors series 18 2018 1.80 y Industry C V warm?
201 Total number of systems 16 8 13 10
MQXF Q1/Q3 n
CERN
C/W Anticryostat at cold?Something like 927 at warm?
MCBXMCBXA
n CERN
MQXF Q2 n CERN CERN
Saclay (cold)
KEK KEK
MCBCR D2 y
MBXF D1 n
1 1
MCSX3/MCSSX3 sext 0.15
MCOX3/MCOSX3 octn INFN Milano C V universal shaft 1
MQSX3 quad
MCBRB CERN
MM in US
0.15
MCTX dode 0.40
MCTSX dode 0.15
0.90
0.15
MCDX3/MCDSX3 dec
MQYY Q4
C/WV
short modelsShafts R22 vertical + short mole
MBH H
Total number of magnets
2
6.3
2
6.3
CERN
CERNC/W
Vprototypes and series
Existing SHAFT for LHC QUADRUPOLESHMBH
D11
CERN
Timeline
Conclusions
Many different magnet families Different MM systems Large number of coils to be produced, calibrated, assembled
Large diameter shafts Our calibration dipole is a limitation New calibration devices
Systems to be sent outside CERN Integration studies Commissioning Training of operators Reliability
Some points to be assessed Measurements with SSW (11-T and MQXF) ? Fiducialization ? Geomagnetic measurements (AC-mole) ? Anti-cryostat for MQXF series ? Required accuracy for magnets tested only in vertical (MCBX) ?