david h. dowell injector [email protected] april 29-30, 2004 lcls injector overview...
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David H. Dowell
Injector Overview [email protected]
April 29-30, 2004
LCLS Injector OverviewD. H. Dowell, SLAC
FAC Review April 29-30, 2004
•Injector Organization•Injector Performance Requirements•Description of the LCLS Injector Facility
–Accelerator Housing–Sector 20 Alcove
•Schedule and Budget•Construction and Acquisition Plan for
Major Components•Summary
David H. Dowell
Injector Overview [email protected]
April 29-30, 2004
Injector OrganizationLCLS Injector
D. H. Dowell, Manager
TBD, Dep. Manager
C. Duprey-Limborg, Physicist
Inj. ControlsD. Kotturi
Inj. LasersS. Gilevich
RF Gun&BeamlineR. F. Boyce
RF SystemsR. Akre
PPS, MPS, PowerConversion
W. Linebarger
D. Kotturi, Cntrls. Prog.S. Allison, Cntrls. Prog.D. Brown, Cntrls. Eng
P. Bolton, Laser PhysicistS. Gilevich, Optical Eng.J. Mitchell, Optical Designer
Ron Akre, Klyst. Eng.Alan Hill, Klyst. Eng.Peter McIntosh, Klyst. Eng.Vojtech Pacak, Klyst. Eng.Anatoly Krasnykh, Klyst. Eng.Bo Hong, Klyst. Eng. (70%)Al Owens, Klyst. Eng.Clive O'Conner, Klyst. Eng.Richard Strozinski, Klyst. Tech.Josh Gold, Klyst. Tech.Nick Gupdnaporne, Klyst. Tech.Greg Dalit, Klyst. Tech.Jeremy Pigula, Klyst. Tech.
P. Bong, PPSA. DeLira, Power Systems Eng.M. Ortega, Eng. ServicesP. Rodriguez, Elec. Sys. Design/Coord.A. Tilghman, MPS
R.F. Boyce, Mech EngN. Braughton, Mech DesignerM. Palrang, Mech Designer
R. Carr, Physicist, Laser Heater
Z. Li, RF Physicist
Gun Test FacilityJ. Schmerge, PhysicistS. Gierman, PhysicistP. Bolton, Laser PhysicistJ. Castro, Laser Tech
Beamline&WaveguideL. Bentson, Lead Mech Eng
D. Blankenship, Mech DesignerT. Osier, Mech Designer
J. Hodgson, Modeling Physicist
RF Gun, GTL & Load Lock
David H. Dowell
Injector Overview [email protected]
April 29-30, 2004
Parameter Value Peak current 100 A Charge 0.1 – 1 nC Normalized transverse emittance projected/slice
1.2 / 1.0 m rms
Rate 120 Hz Energy 135 MeV Energy spread @ 135 MeV projected/slice
0.1 / 0.01 % rms
Gun laser timing stability 0.50 ps rms Booster mean rf phase stability 0.1 rms Charge stability 2.0 % rms Bunch length stability 5 % rms
LCLS Injector Performance Requirements:
David H. Dowell
Injector Overview [email protected]
April 29-30, 2004
10' ACCELERATOR
S2
OT
R3
LINAC HOUSING SIDEWALL
PEP-2 HE/LE BYPASS
LINAC COHERENT LIGHT SOURCE MODIFICATION TO LINAC 10' HIGH
BEAM
LE
LINAC HOUSING SIDEWALL
LINAC HOUSING SIDEWALL
YA
G 4
C
0 1
PEN. 20-17
BE
AM
ST
OP
PE
R
QE
-90
1
BPM
17 D
UM
P
9.4
LINAC HOUSING SIDEWALL
SECTION 21-1BSC
11
PEN. 20-16PEN. 20-15
2" TUBE
QU
AD
10' ACCELERATOR
SC
5
QU
AD B
01
SC
9
BP
M 1
3
BP
M 6
SC
3
LINAC HOUSING SIDEWALL
SECTION 20-8A SECTION 20-8B
A
10'
WS
04
QU
AD
LINAC HOUSING SIDEWALL
HE
1 2 4
3SECTION 20-8C
B
OTR
4
BP
M 5YA
G 2
CM
3
ACCEL
SC
4
10' ACCEL
LINAC HOUSING SIDEWALL
B, ,
KEY: ... ETC. ARE SIX SOURCE AREAS ALONG THE DRIFT REGION2,1
... ETC. ARE POINT-SOURCE LOCATIONS ALONG THE HE BYPASS LINE0 2,0 1
ARE THE DETECTOR LOCATIONS INSIDE THE LCLS INJECTOR VAULTCA
ACCELERATOR
EO
2
RF
KIC
KER
OT
R6
BP
M 1
4
3" TUBE
10'
0 2 0 3 0 4
B0
2
5 6
PEN. 21-1
ACCEL
QU
AD
QU
AD
CONCRETE
10' HIGH
B0 QS01
DRIFT SECTION
PICPIC
BSOIC
VALVE
Fe 1 Fe 2 Fe 3
Pb 3
FC1,YAG
E01
BPM
3
RF G
UN
CAT
HO
DE
CM
1
MAGNETIC
SC1 X-Y,QUAD
VALVE 1
S1Spectro.
CM2
BPM
2
BPM 4
FC2,YAG
BPM
1
RFCav.
SC2X-Y
PORC
UPINE CATHO
DE
HOLDER
UHV ALL M
ETAL
GATE VALVES
SPOOLS FR
OM VALVE
SEAL
LONG
BELLOWS
ASSEMB
LY
TREATM
ENT CHAMB
ER
VACUUM
PUMPS
QUAD
UNDULATOR
RA
D S
TOP
PER
QU
AD
OT
R5
Pb 2
Pb 1
QS02 QS03
OTRFC 4
EO
3
CM
4
SC
7
BPM
9
BP
M 1
0 VA
LVE
2
BPM
11
VALV
E 3
SC
8
BP
M 1
2
SC
10
VA
LVE
4S
C12
SC
13
FC3,YAG
SC
6
YAG
1
YAG
3
BP
M 8
BP
M 7
BPM 20
BPM 19
BPM 18
QU
AD
QU
AD
QU
ADQU
AD
QUAD
QU
AD
BPM 15BPM 16
1/22/2004
OT
R 1
OT
R 2
LCLS Injector Configuration
RF Gun
Load Lock
Transverse RF Cavity
Laser Heater
DL1 Bend
Straight Ahead Spectrometer
L0-1 & L0-23-m SLAC Sections
Gun Diagnostics
David H. Dowell
Injector Overview [email protected]
April 29-30, 2004
6' X 15'4' X 8'6' X 15'
Controlledentry
Optical work areaLocal ControlStorage
Load LockRoom
PO
RC
UP
INE
CA
TH
OD
E
HO
LD
ER
UH
V A
LL
ME
TA
L
GA
TE
VA
LV
ES
SP
OO
LS
FR
OM
V
AL
VE
SE
AL
LO
NG
BE
LL
OW
S
AS
SE
MB
LY
TR
EA
TM
EN
T C
HA
MB
ER
VA
CU
UM
PU
MP
S
Cable tray overtop of Laser Bay
Cable Trayinto Laser Bay
Roll up Door
Staging Areafor EquipmentGoing to Injector
Power SuppliesPump Utilities
Laser Bay
RF Hut
Power SuppliesKlystron GallerySector 20
10 Feet
Dn
BeamTransport
EmergencyExit
OverheadCrane
Entry
Top View of S20 Alcove
Side View of S20 Alcove, stairwell and injector off-axis vault
Laser Room
Local Control Room
Injector
The LCLS Injector Facility at Sector 20
Cathode Lab
Personnel and Equipment Access to Injector
Laser Penetration
David H. Dowell
Injector Overview [email protected]
April 29-30, 2004
PEN. 20-19
6' DOOR
4' D
OO
R
10' SLIDING DOOR
12'PENETRATIONFOR LIGHT
OPTICAL TABLES
CLEANROOM
CLEANROOMENTRY
RACKS
3' DOOR
3' D
OO
R
MATERIAL SHAFTSTAIR WELL
10'
Drive Laser Room Relative to the Gun
Penetration for Drive Laser Beams
David H. Dowell
Injector Overview [email protected]
April 29-30, 2004
LCLS Will Use Part of the Existing High Power RF
RF System, R. Akre
David H. Dowell
Injector Overview [email protected]
April 29-30, 2004
Current View of S20 Drive Laser Room
David H. Dowell
Injector Overview [email protected]
April 29-30, 2004
Current View of S20 Drive Laser Room
David H. Dowell
Injector Overview [email protected]
April 29-30, 2004
Current View of S20 Control Room
David H. Dowell
Injector Overview [email protected]
April 29-30, 2004
COST Report – WBS3 x FundFY FY FY FY FY
WBS DESCRIPTION 2004 2005 2006 2007 2008 TOTAL
1.2.1 Injector System Management & Integration
PED Project Engineering 191 357 548CON Project Construction 19 359 57 11 446TOTAL 191 376 359 57 11 994
1.2.2 Injector Controls Subsystem
PED Project Engineering 460 31 491CON Project Construction 1797 687 140 307 2931TOTAL 2257 719 140 307 3422
1.2.3 Injector Lasers
PED Project Engineering 164 486 15 665CON Project Construction 3220 476 3696
TOTAL 164 3707 491 4361
1.2.4 RF Gun & Load Lock
PED Project Engineering 89 103 118 34 344CON Project Construction 282 166 448TOTAL 89 385 118 200 792
1.2.5 Gun to Linac Section (GTL)
PED Project Engineering 116 149 266CON Project Construction 4 398 1 403TOTAL 120 548 1 668
1.2.6 Injector Linac Structures
PED Project Engineering 103 50 153CON Project Construction 166 16 182TOTAL 103 216 16 335
David H. Dowell
Injector Overview [email protected]
April 29-30, 2004
COST Report – WBS3 x FundFY FY FY FY FY
WBS DESCRIPTION 2004 2005 2006 2007 2008 TOTAL
1.2.7 L0-1 to L0-2 Section (L0-1TL0-2)
PED Project Engineering 81 20 100CON Project Construction 176 176TOTAL 81 196 276
1.2.8 Linac to DL1 (LTDL1)
PED Project Engineering 165 78 243CON Project Construction 456 18 475TOTAL 165 534 18 717
1.2.9 Dog Leg 1 Bend (DL1)
PED Project Engineering 17 104 121CON Project Construction 161 19 180
TOTAL 17 265 19 301
1.2.10 DL1 to Linac (DL1TL)
PED Project Engineering 15 72 86CON Project Construction 377 28 404TOTAL 15 448 28 491
1.2.11 Straight Ahead Beamline (SAB)
PED Project Engineering 46 171 217CON Project Construction 360 81 441TOTAL 46 531 81 658
1.2.12 Injector RF Waveguide Subsystem
PED Project Engineering 56 44 100
CON Project Construction 873 873TOTAL 56 917 973
David H. Dowell
Injector Overview [email protected]
April 29-30, 2004
COST Report – WBS3 x Fund
FY FY FY FY FY
WBS DESCRIPTION 2004 2005 2006 2007 2008 TOTAL
1.2.13 Injector RF Subsystem
PED Project Engineering 350 711 170 1231CON Project Construction 332 393 20 745TOTAL 350 1043 563 20 1977
1.2.14 Cathode Processing (CP) Station
PED Project Engineering 116 1 117CON Project Construction 93 115 208TOTAL 209 116 326
1.2.15 Injector Laser Heater Subsystem
PED Project Engineering 79 51 130CON Project Construction 252 195 10 457
TOTAL 331 246 10 587
1.2.16 Injector Protection & Pwr Conv Subsystem
PED Project Engineering 110 358 134 602CON Project Construction 568 58 626TOTAL 110 926 191 1228
1.2.17 Injector Installation & Alignment
CON Project Construction 29 815 148 14 2 1007TOTAL 29 815 148 14 2 1007
David H. Dowell
Injector Overview [email protected]
April 29-30, 2004
Injector Design and Procurement Plan
Drive LaserRequesting Vendor Integration of IR System and UV Conversion OpticsMore Details In S. Gilevich’s Talk
RF Gun and Load LockSLAC Performed 120 Hz Thermal Analysis (See Nov 3 Injector Review)Currently Requesting Bids for Vendor Engineering and FabricationSLAC Definition of RF Design and Vendor Engineering & Fabrication
L0 Accelerator SectionsL0-1 has Newly Designed, Dual RF Feed (See D. Dowell talk)L0-1 Fabricated at SLAC by Modifying Existing SLAC StructureL0-2 Standard 3-m Structure from SLAC Inventory
Beam TransportPurchase Standard Gun Solenoid but with Field Correctors (See D. Dowell talk)Quadrupoles are Based Upon GTF Designs, but with 1” Dia. Aperture from Xgamma Corp.DL1 Dipole Designs Completed and Will Submit to Vendors for QuotesBids for Spectrometer and Chicane Dipoles will be Combined into Single PackageLinac Solenoid Currently in ANSYS and Engineering Design
RF Transverse DeflectorPossibly Reuse Existing Structure in LinacNeed to Evaluate Condition and Get Permission to Remove
DiagnosticsPurchase Bergoz ICT’s and Readout Modules for Charge MeasurementsUse Standard SLAC Striplines for BPM Measurements, but Require New Large Dynamic Range ElectronicsOTR and YAG Profile Monitors With Wake Field MitigationIntegrated YAG/Faraday Cups Based Upon GTF Design
David H. Dowell
Injector Overview [email protected]
April 29-30, 2004
Summary and Conclusions
In Process of Building Injector OrganizationInjector Configuration FinalizedSector 20 Alcove Will be New Construction
~850 sq. ft. for Drive Laser Bay and Optical Lab/StorageMore Space for Cathode Lab
Injector Schedule:Installation Plan Tied to Linac Downtimes~400 days for injector commissioningWorking to Shorten Drive Laser Schedule
Design and Procurement Plan:Improves and Re-Uses Existing SLAC Designs Utilizes Competent Vendors