FRIB Parameter Listcasa.jlab.org/JLEICParams/FRIB_parameters.pdfOperational temperature QWRs now 2...

Facility for Rare Isotope Beams

FRIB Parameter List

FRIB-T10501-BL-000002-R016

Issued 29 October 2015

Prepared by Approved by

Concurred Concurred

Concurred

FRIB Parameter List

FRIB-T10501-BL-000002-R016


XGeorg Bollen

Experimental Systems Division Director

Signed by: bollen

XDaniel Stout

Chief Engineer

Signed by: stout

XBryant Barnes

Systems Engineer II

Signed by: barnesb

XJie Wei

Accelerator Systems Division Director

Signed by: Jie Wei

XPaul Mantica

Deputy Project Manager

Signed by: Paul Mantica

10/29/2015

10/29/2015

10/29/2015

11/3/2015

10/30/2015


FRIB Parameter List

FRIB-T10501-BL-000002-R016 Page 1 of 46


IndexContents PageIndex 1Revision History 2FRIB Site Plan 4FRIB Layout 5FRIB Symbol Table 6FRIB Beam Evolution Parameters 7Front End Parameters 8Linac Parameters Linac Segment 1 12 Folding Segment 1 15 Linac Segment 2 17 Folding Segment 2 20 Linac Segment 3 21 Beam Delivery System Parameters 23Production Target Systems Parameters 25Fragment Separator Parameters 26Cryogenic System Parameters 29Control System Parameters 30RF System Parameters 31Diagnostics Parameters 32Optical Elements 35Power Supplies 36Alignment System Parameters 41Appendix Reaccelerator 12 MeV Upgrade Parameters (not part of current baseline) 42 Beam Stopping Parameters (not part of current baseline) 43 Detector Systems (not part of current baseline) 44Reference Documents 46


FRIB Parameter List

FRIB-T10501-BL-000002-R016 Page 2 of 46


Revision HistoryRevision Issued

R001 12-Mar-2010

R002 4-Jun-2010

R003 16-Jul-2010

R004 31-Jan-2011

R005 15-Apr-2011

R006 29-Aug-2011

R007 6-Dec-2011

R008 3-Feb-2012

R009 29-Feb-2012

R010 12-Mar-2012

R011 6-Apr-2012

R012 15-May-2013

Changes

Signed-off Issue in support of the CD-2/3A DOE review of 4-5 June 2013. Updated to current revision of requirements documents.

Updated cold BPM location in LS1 ideogram. Increased quarter wave drift tube diameter from 34 mm to 36 mm (PCR13-110).

Updated Site Plan. Changed FE ion source names as per DCN-13-0019.

Signed-off Issue. Changes as per PCR12-23 and PCR12-26.

Initial Draft Issue, presented at the DOE mini-review of 17-Mar-2010.

Draft Issue in support of the pre CD-1 MSU Internal Readiness Review; added cavity data, updated Primary Parameters, FE, LS1,

FS1, LS2,FS2,Reaccelerator, Diagnostics, RF and Cryogenics tabs and all ideograms. BDS based on 70 deg bend.

Signed-off Issue in support of the CD-1 DOE review of 27-29 July 2010.

Draft issue in support of the February 2011 ASAC review. Based on the FRIB_DF4_V09 lattice. Ideograms now include system and

subsystem names. Operational temperature QWRs now 2 K. Update of WBS numbers based on FRIB-Z00000-BL-000004-R005.

Detailed change history added (last pages).

Draft issue in support of April 2011 Lattice review. Based on the FRIB_DF4_V11R6 lattice.

Signed-off Issue in support of the DOE review of 27-29 September 2011. Changes as per

PCR-11-65, PCR11-086 and PCR-11-087.

Signed-off Issue in support of the ESAC review of 14-16 December 2011. Changes as per

DCR-12-0001.

Signed-off Issue. Moved Beam Stopping to Appendix (PCR11-90); updated cryogenic heat loads.

Signed-off Issue. Redistribution of ASD Beam Diagnostics as per PCR12-50.

Signed-off Issue in support of the CD-2/3A DOE review of 24-26 April 2012. Updated references to requirements documents;

redistribution of some ESD Diagnostics viewers and detectors. Removed cryogenic flows list.


FRIB Parameter List

FRIB-T10501-BL-000002-R016 Page 3 of 46


R013 8-Apr-2014

R014 13-Mar-2015

R015 21-Apr-2015

R016 28-Oct-2015

Notes Numbers and text in red are "to be confirmed" or "to be approved"

None

None

Authorizing DocumentThis Parameter List is authorized by the Project Controls Plan (T10200-PL-000047)

Signed-off Issue in support of the MSU President's Review and CD-3B DOE reviews. Magnet changes in folding segments and

Beam Delivery sections made separating quadrupole and sextupole magnets. Changes were made to magnet counts as well as

power supply types and counts. Changes were also made to the target absorbed power and beam adjustment range. Updates to

curent revisions of referenced requirements documents including the RF cavity requirements and heat load calculations. Updated

DCC links to automatically open the latest revision. Adjustments made to lengths of sub-segments, but no change to segment

lengths. Adjustments were made to bring items in line with FRIB naming convention. Diagrams updated to most recent version.

Signed-off Issue in support of the DOE review. Two decision were made which changed the parameter list. There was a change to

the magnets in the MEBT section of the Front End from SC solenoids to RT Quads (T30503-RC-000153-R001). This change

impacted the Front End as well as the optical elements and power supply tables. There was also a decision to commonize the

rebunching crymodules in the end of LS1 and start of FS1 (T31307-RC-000203-R001). That decision impacted LS1, FS1 and the RF

systems. There were additional changes to the Q2 and Q3 quadrupoles owing to the elimination of type Q1L and changes to the

S4 magnets in the front end due to the addition of type S4S. These changes impacted Front End, FS1, FS2, and BDS.

Authorized Documents

Authorized Committees and Boards

Added Paul Mantica (Deputy Project Manager) as a signer.

Added FSQ1 magnet and power supply change from superconducting to room temperature. Impacting the Folding Segment and

Optical Elements tabs. Correction to Power Supply tab for Q8 and Q9 power supplies (names only). Update to FRIB Symbol Table

(minor name changes). Added Q1 magnet to FS1 Beam Transport Section (BTS). Changed all Q1c power supplies to Q1b. Added

Repelling Electrode power supplies to the power supply tab. Added new tab to power supplies detailing layout information for

certain power supply types. Updated signature page per the Configuration Management Plan. Updated diagnostic device

quantities and ideograms.


FRIB Parameter List

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FRIB Site Plan [23]Revision date 3/3/2014


FRIB Parameter List

FRIB-T10501-BL-000002-R016 Page 5 of 46


FRIB Layout [24]Revision date 10/28/2013


FRIB Parameter List

FRIB-T10501-BL-000002-R016 Page 6 of 46


FRIB Symbol TableCreated on 5/19/2014


FRIB Parameter List

FRIB-T10501-BL-000002-R016 Page 7 of 46


FRIB Beam Evolution ParametersCreated on 2/29/2012

Beam Uranium

rms 99.99% rms 99.99% rms 99.99% rms full rms full rms full rms full

1) Right after the charge stripper, before charge state selection, a total current of ~819 emA in the charge states 74-83 is expected. Data shown are for liquid Li stripper.

Scenario for

Uranium 238

Charge state

(average)

Energy

(MeV/u)

Energy

(MeV/u)

Energy

(MeV/u)

Scenario for

Krypton 86

Charge state

(average)

Energy

(MeV/u)

Energy

(MeV/u)

Energy

(MeV/u)

Beam on

target

baseline baseline +

3 CM

baseline +

12 CM

Beam on

target

baseline baseline

+ 3 CM

baseline

+ 12 CM

Baseline 78+ 202.1 228.1 305.8 Baseline 33+ 243.2 273.7 363.1

Alternative 71+ 179.3 202.1 275 Alternative 30+ 219.1 247.1 329.2

Fault 63+ 154.5 176 247.1 Fault 26+ 187.6 212 284.3

0.52 2.8

1.52 10.4

0.90 6.1

1.06 7.2

0.73 5.2

Beam size H (mm)

1.62 7.9

7.89 37.9

5.81 28.9

1.15 7.0

Energy (MeV/u)

baseline+12 CM+ 35%

gradient enh. for

b=0.29&0.53

481.9

440.1

384.1

Energy (MeV/u)

baseline+12 CM+

35% gradient enh.

for b=0.29&0.53

412.5

375.3

342.1

80.500.15 2.56 4.53 127.42 0.20 1.4 7.5 39.9 0.120.19 1.3

80.501.95 1.78 29.20 1.19

Target 515.48 76-80 202.06 0.570 655 0.15 2.43

0.99

0.12 0.60

0.60

7.4 0.3 1.8 0.140.13

LS3 output

FS2 output

LS2 output 324.18 76-80 148.63 0.506 655 0.13 1.69 0.13

1.15 80.500.185 655 0.13

0.89 6.8 0.6 3.4 0.06 0.44

1.51 0.12 1.51 0.54 19.99 1.52 9.5 0.5 6.1 0.23

80.501.87 1.77

0.04 0.22 DCMHB

input25.97

1.14 80.500.185 655 0.12

33&34 0.012

Stripper

output 1) 155.82 76-80 16.35

80.50

1.26 0.11 1.23 0.10 6.42

5.63 1.20

FS1 output 201.98 76-80 16.35

MEBT

output

LS1 output

0.012

- -1.62 7.9

0.04 0.22

2.7 31.0 0.220.11 1.16 0.11 1.09 0.10

3.14

0.07

0.11

Bunch

repetition

rate (MHz)

Emittance L (p.keV/u.ns)Emittance V

(normalized) (pmm)

DCECRIS

output0.005 ~10000 0.07 0.38 - -

Position

Beam

energy

(MeV/u)

Beam

current

(emA)

Beam size V (mm)Bunch length

([email protected])

Beam energy

spread (%)

Emittance H

(normalized) (pmm)Relativistic b

0.003

Location (m from

ARTEMIS source)

0.00

Charge

State

25-40

DC

RFQ

input

RFQ

output

0.11 1.10 0.11 1.10

0.50 - - 7.37 32.5 DCQ/A output 0.012 628 0.07 0.59 0.07

1.00 6.00 80.50440

2.82

43.88

146.85

476.50

33&34

33&34

33&34

33&34

76-80

0.186

0.50 0.033

364.44 76-80 148.63 0.506

1.8 20.9 0.32

10.1 0.9 9.3

0.570

0.50 440

352

0.231.38 0.12 1.29 0.50 21.73 0.46 2.8 0.4 6.1

0.14 1.88

25.43

655

0.11 1.29 0.11 1.19 0.11

6.6

6.07 1.69

1.54 8.8

1.28 7.7

1.57 8.4

1.58 9.0

- - 5.73 26.9 DC DC

80.50202.06 655 0.14 1.92 0.14 2.31 4.40 127.53 0.78 5.6 4.7 25.3

0.85 80.50

80.50

16.63 352

0.07 0.38 DC DC

9.78

31.48

36.46

0.005

0.005

0.033

DC

55 360- - 1.15 7.0

33&34

0.005 440 0.08 0.97 0.07 0.81


FRIB Parameter List

FRIB-T10501-BL-000002-R016 Page 8 of 46


Front End System Parameter ListDate 9/14/2015

T.3.05

WBS Parameter Qty or Type Unit Ref. Comments

Front End Length 43.9 m [1] Starting from Artemis source

T.3.05.04 Sources (FE_ISRC1 and FE_ISRC2) 2 [1] 1 RT (Artemis) type (FE_ISCR1), 1 SC type (FE_ISRC2)

SC ECR Ion source Similar to VENUS

Output Energy 12 keV/u

Primary RF system Frequency 24 GHz

Primary RF system Power 10 kW Gyrotron

Secondary RF system Frequency 18 GHz

Secondary RF power 2 kW

Magnet technology SC, Nb-Ti

Plasma chamber diameter 135 mm

Chamber Material Al

Field configuration Solenoid + Sextupole

Solenoid coils 3 [2] Power supply requirements in T30102-SP-000290

Extraction voltage 40 kV [2] Power supply requirements in T30102-SP-000290

HV platform voltage 0 - 70 kV [2] Power supply requirements in T30102-SP-000290

Injection solenoid Field 3.4 T Optimum for 24 GHz operation

Extraction solenoid Field 2.6 T Optimum for 24 GHz operation

RT ECR Ion source Artemis

Primary RF system Frequency 14.5 GHz

Secondary RF system Frequency 10 GHz frequency adjustable; used for heating

ECR Intensity

RequirementsA Z

Q

ECR

Transport

Efficiency Intensity

[22]

An extensive list of key beams for FRIB can be found in

FRIB-U10600-BL-000036

Ar 36 18 8 80 378 eμA 47.3 pμA

Kr 86 36 14 80 331 eμA 23.6 pμA

* Transport efficiency from source to target

Transverse Emittance (per charge state, 100%, normalized)

Single Charge State beam 0.9 pmm

Dual Charge State beam 0.6 pmm

Vacuum

Pressure ( Injection region) < 3.E-7 Torr [3] operating vacuum

Pressure (Extraction region) < 3.E-7 Torr [3] operating vacuum

T.3.05.02 Beam line solenoid (type S4) 3 [1] Source solenoids

T.3.05.02 Beam line solenoid (type S4S) 1 [1] Used with Venus Source

Steering magnets (type C4) 4 [1] 2 per source

T.3.05.09 Vacuum Additional vacuum requirements in T31201-SP-000031

Beam line gate valves 2 [1]

Source Charge Selection sections (FE_SCS1 and FE_SCS2) achromatic Capable of selecting two charge states: U33+ and U34+

T.3.05.02 Dipoles (90 deg, type D5) 3 [1] 1 for each source plus 1 to link FE_SCS2 to FE_LEBT

T.3.05.02 Electrostatic quadrupoles (type Q7) 14 [1] 6 for each source plus 2 to link source lines

Steering magnets (type C4) 4 [1] 1 in SCS1 and 3 in SCS2

Charge selection slits 2 [1], [4] 1 for each source, type AC2 (see T31201-SP-000021)



https://portal.frib.msu.edu/dcc/pages/dcclink.aspx?WBS=T30102&Sub=SP&SN=000290



https://portal.frib.msu.edu/dcc/pages/dcclink.aspx?WBS=U10600&Sub=BL&SN=000036










FRIB Parameter List

FRIB-T10501-BL-000002-R016 Page 9 of 46


Front End System Ideogram (FE Building part)Date 10/13/2015


Low Energy Beam Transport (FE_LEBT)

Input Beam Energy 12 keV/u

T.3.05.02 Electrostatic quadrupoles (type Q7) 16 [1] Optical elements requirements are in T30102-SP-000289 [17]

T.3.05.02 Dipoles (90 deg, type D5) 1 [1] 1 to link FE_SCS1 to FE_LEBT

T.3.05.02 Electrostatic dipoles (90 deg, type D7) 2 [1]

T.3.05.02 Solenoids (type S4) 7 [1] Normal conducting

T.3.05.02 Steering magnets (type C4) 13 [1]

T.3.05.05 Velocity equalizer 1 [1] Amplifier type RFA1 in T31201-SP-000034

RF frequency 40.25 MHz [5]

RF bandwidth 300 kHz

T.3.05.10 LEBT Chopper 1 [1]

Deflector length 0.15 m

Voltage ±3.5 kV

Rise time 25 ns

Pulse length 60 - inf. ns

Frequency range 0 - 30 kHz

Load Capacitive

T.3.05.01 LEBT Collimation systems 2 [1] Type AC3 (see T31201-SP-000021)

Distance between sets of apertures 1.15 m [1]

Phase advance between apertures 90 deg

Aperture 1.2 cm for 0.6 mm.mrad

T.3.05.05 LEBT Buncher 1 [1] Amplifier requirements in T31201-SP-000034

RF frequencies (#) 3 [5] Multi-harmonic buncher, non-gridded

RF frequencies 40.25, 80.5, 120.75 MHz [5] Amplifier type RFA1,RFA2 and RFA3 respectively

RF bandwidth 300 kHz













FRIB Parameter List

FRIB-T10501-BL-000002-R016 Page 10 of 46


Front End System Ideogram (FE Vertical Drop)Date 4/3/2014


T.3.05.05 Radio Frequency Quadrupole (FE_RFQ) 1 [1] Four vane type

Input energy 12 keV/u

Output energy 500 keV/u

Mid-cell radial aperture 5.1 to 9.0 mm

Acceptance

Transverse 1.4 pmm Overall length 5 m

RF Frequency 80.5 MHz [5]

Nominal inter-vane voltage 58-113 kV Changes along the vanes

Peak surface field 16.5 MV/m Equivalent to 1.6 Kilpatrick

Modulation factor 1.04 - 2.0

Number of cells 175

Synchronous phase -30 to -25 deg

Quality factor 13000

Power (minimum required) 90 kW Amplifier type RFA5 in T31201-SP-000034

Effective transmission (for 2 charge states) 82 %







FRIB Parameter List

FRIB-T10501-BL-000002-R016 Page 11 of 46


Front End System Ideogram (Linac Tunnel part of LEBT, RFQ and MEBT)Date 10/13/2015

Medium Energy Beam Transport (FE_MEBT)

MEBT Length 7.427 m

Input Beam Energy 500 keV/u

T.3.05.05 RT RF bunchers 2 [1] Amplifier type RFA4 in T31201-SP-000034

Length (flange to flange) 0.32 m [1] Double gap type


Aperture Diameter 30 mm

Effective Voltage 100 kV

Peak surface field 4.5 MV/m

RF bandwidth 30 kHz

T.3.05.02 Dipole, 45 deg (type D6) 1 [1] Optical elements requirements are in T30102-SP-000289 [17]

T.3.05.03RT Quadrupoles (Q8) 8

[1]

A pair of corrector coils are built into 4 of these magnets (one for each

triplet).

T.3.05.03 RT Quadrupoles (Q9) 4 [1]


Beam line gate valves 2 [1] Includes the FE_BTS one

Fast acting valves 1 [1]

Front End (General)

T.3.05.01 Diagnostics [4] Diagnostics requirements are listed in T31201-SP-000021

Current Monitors 3 [1] 3xBCM1: 1 in LEBT, 2 in MEBT

Beam Position Monitors 4 [1] 4xBPM1 in MEBT

Apertures 3 [1]

Emittance Systems 3 [1] 2xEM1 in SCS, 1xEM2 in LEBT

Faraday Cups 8 [1]

Fast Faraday Cups 2 [1] 2xLPM1: one in LEBT, one in MEBT

Bunch Length measurement systems 0 [1] High resolution

Beam Loss Monitors 0 [1]

Intensity reducing screen systems 2 [1] Beam attenuator; each system has 2 screens

Profile Monitors 13 [1] 13xPM1: 1 in SCS, 11 in LEBT, 1 in MEBT

View Detectors 5 [1] 2xV1 in SCS, 1xV2 in LEBT, 1xV1 in LEBT, 1xV2 in FE_BTS

Charge Selection Slits (4-jaw collimator) 2 2xSLT in SCS

2-jaw collimator 1 1xSLT in EML









FRIB Parameter List

FRIB-T10501-BL-000002-R016 Page 12 of 46


Linac Segment 1 Parameter ListDate 3/12/2015

T.3.06


Segment One Length 101.131 m [1]

Uranium Acceleration

Charge states (2) 33+/34+

Input Energy 0.5 MeV/u

Output Energy 16.6 MeV/u

Energy gain 16.1 MeV/u

Acceptance (Nominal)

Transverse (beam size/aperture) 60 % 24 mm max. beam size,40 mm aperture

Longitudinal 30 p.keV/u.ns

T.3.06.02 Cavity & Cryomodule Configuration

l/4 , bopt 0.041 (LS1_CA)

Number of cryomodules 3 [1] Based on 500 keV/u RFQ

Number of cavities/cryomodule 4 [1]

Number of solenoids/cryomodule 2 [1]

Number of cavities 12 [1]

Number of gate valves 6 [1] 2 per cryomodule

Number of solenoids (type S1) 6 [1] Superconducting with integrated steerers

Dipole correctors 12 [1] One in each plane per solenoid

Cavity Data For a more complete list, refer to T31202-SP-000067


Flange to flange length 176 mm [6]

Aperture (of beam tubes) 36 mm [6]

Epk (numerical calculation) 30.8 MV/m [6] peak surface electric field

Bpk (numerical calculation) 54.6 mT [6] peak surface magnetic field

<Va> 0.81 MV

[6]

accelerating voltage design goal (includes transit time factor, at beta =

beta_opt)

R/Q 401.6 W [6] shunt impedance/Q (linac definition)

G 15.3 W [6] geometry factor

<U> 3.2 J [6] average stored energy

T 2 K [6] operating temperature

Q0_Dewar 1.4E+09 [6] intrinsic quality factor design goal at FRIB Ea and T

Q0_cryomodule 1.2E+09 [6] Quality factor required for cryomodule

<Pd> 1.32 W [6] power dissipation per cavity in cryomodules (average)

<q> 33.5 [6] average charge state (uranium case)

Beam Current (Ion flux) 10.5 pmA [6] uranium

Beam Current (Ib) 352 emA [6] uranium

phi_s 0 deg [6] synchronous phase (maximum)

phi_rf 0 deg used for rf power calculations

Pb (max) 313 W [6] max beam power (uranium case with contingency 10% on Va)

Qb (at max) 6.31E+06 [6] Qb=2*pi*f*U/Pb (min) (uranium case, with contingency)

Delta_b (at max) 6.38 Hz

[6]

Delta_b = f/(2*Qb), uranium case, max peak detune from beam

fluctuations

Control BW 40 Hz [6] BW obtained when BW > 40 ; Pg/<Pb> >2

del_f 20 Hz [6] max expected peak freq disturbance from microphonics

Cavity BW 43.0 Hz

[6]

RF BW considering microphonics, beam fluctuations, and resolution of

the tuner

QL=Qext1 1.9E+06 [6] loaded Q = input external Q beam off (coupling setpoint)

Beta1 7.4E+02 [6] unloaded input coupling factor

Pg/Pb 2.14 [6] (max power available / max beam power required)

Pf=Pg 672 W

[6]

peak forward power required at power coupler (with contingency).

Additional amplifier requirement in T31201-SP-000034, amplifier type

RFA6.

Pnom 444 W

[6] nominal power with beam on at max with contingency (no detuning)

Cryomodule length 2.993095 m [1] Includes 2 cold BPMs

Total length 10.1193 m [1]










FRIB Parameter List

FRIB-T10501-BL-000002-R016 Page 13 of 46



T.3.06.02 Cavity & Cryomodule Configuration (continued) Includes space for 1 more beta=0.085 CM

l/4 , bopt 0.085 (LS1_CB)

Number of cryomodules 11 [1]










Aperture 36 mm [6] aperture of beam tubes



<Va> 1.78 MV[6]

accelerating voltage design goal (includes transit time factor, at beta =

beta_opt)

R/Q 455.4 W [6] shunt impedance/Q (linac definition)

G 22.3 W [6] geometry factor






<q> 33.5 [6] average charge state (uranium case)

Beam Current (ion flux) 10.5 pmA [6] uranium



phi_rf 0 deg used for rf power calculations

Pb (max) 690 W [6] max beam power (uranium case with contingency 10% on Va)


Delta_b (at max) 3.29 Hz[6]


fluctuations



Cavity BW 41.5 Hz [6] RF BW considering microphonics, beam fluctuations, and resolution of




Pf=Pg 2469 W

[6]

peak forward power required at power coupler (with contingency).

Additional amplifier requirement in T31201-SP-000034, amplifier type

RFA7.

Pnom 1460 W[6]

nominal power with beam on at max with contingency (no detuning)

Cryomodule length 5.9924 m [1] Includes 3 cold BPMs

Total length 70.0964 m



Warm region envelope for diagnostics 0.38 m

Current Monitors 0

Beam Position Monitors 59 [1] 39 cold BPMs and 20 warm BPMs

Slits 0

Emittance Systems 0

Faraday Cups 0

Fast Faraday Cups 0

Bunch Length measurement systems 0 High resolution


Intensity reducing screens 0

Profile Monitors 2 [1]

View Detectors 0

T.3.06.06 Vacuum Vacuum requirements in T31201-SP-000031

Beam Transport Section (LS1_BTS)

Space for contingency (e.g. extra CMs, extra space for charge stripper)

Beam transport section length 20.9150 m [1]

T.3.06.07 Quadrupoles (type Q1) 12 [1] Room temperature

T.3.06.07 Steering correctors (type C2) 6 [1] Room temperature, dual plane (H&V)

T.3.06.02 Matching cryomodule (l/4, b=0.085) (LS1_CH01)1

[1]

Cavity data are listed under linac segment 1 (This module is not

installed initially)

Module length (l/4, b=0.085) 2.28453 m [1] Includes metal gate valves

l/4 cavities, opt. b=0.085 4 [1] Amplifier type RFA10 in T31201-SP-000034 Number of gate valves 2 [1]















FRIB Parameter List

FRIB-T10501-BL-000002-R016 Page 14 of 46


Linac Segment 1 IdeogramDate 10/13/2015


FRIB Parameter List

FRIB-T10501-BL-000002-R016 Page 15 of 46


Folding Segment 1 Parameter ListDate 3/12/2015

T.3.07


Segment Length 56.963 m [1]

Input Beam Energy 16.6 MeV/u Uranium beam

Output Beam Energy 16.4 MeV/u Uranium beam, liquid Li stripping

Output Beam Energy 15.7 MeV/u Uranium beam; He gas stripping

Charge Stripping Section (FS1_CSS)

Stripping Section Length 25.355219 m [1] includes both matching cryomodules

T.3.07.02 Dipole (5 deg, type D1) 8 [1] RT Dipole for dog leg chicanes

T.3.07.02 Quadrupole magnets (type Q1) 12 [1] Room temperature

T.3.07.02 Steering correctors (type C2) 7 [1] Room temperature

T.3.07.04 Matching cryomodule (l/4, b=0.085) (FS1_CH01) 1 [1] Cavity data are listed under linac segment 1



T.3.07.04 Matching (l/4, b=0.085) cryomodule (FS1_CH02) 1 [1] Cavity data are listed under linac segment 2



T.3.07.05 Charge stripping station [21] Charge stripping requirements in T30705-SP-000080

Length 2 m [1] Space available (includes one gate valve at either end)

Liquid lithium stripping 76+ to 80+ Baseline

Charge Stripper Beam Loss 20 % For liquid stripper

Beam power loss (Liquid lithium stripping) 1 kW

Helium gas stripping 69+ to 73+ Optional; space reserved for 2 additional single cavity CMs

Beam power loss (Helium gas stripping) 3 kW

Beam Transport Section (FS1_BTS dump 1)

T.3.07.02 Quadrupole magnets (type Q1) 2 [1] Room temperature, in beam dump line


T.3.07.06 Beam Dump 1 [1] Additional requirements in T31201-SP-000039 [7]

Beam power (average) 0.015 kW [7]

Beam Bending Section (FS1_BBS)

Bending section length 11.059056 m [1]

T.3.07.02 Dipoles (45 deg, type D2) 4 [1] RT Dipole to allow for fault scenarios (e.g. U63+)

T.3.07.02 Quadrupole (type Q6) 4 [1] Room temperature

T.3.07.02 Sextupole (type H3) 2 [1]

T.3.07.06 Beam Collimator 1 [1] Requirements in T31201-SP-000039 [7]


Beam Transport Section (FS1_BTS dump 2)



T.3.07.06 Beam Dump 1 [1] Additional requirements in T31201-SP-000039 [7]


Beam matching section (FS1_BMS)

Beam matching section length 20.5484 m [1] including matching cryomodule

T.3.07.02 Quadrupole magnets (type Q1) 12 [1] Room temperature

T.3.07.02 Steering correctors (type C2) 6 [1] Room temperature

T.3.07.04 Matching cryomodule (l/4, b=0.085) (FS1_CH03) 1 [1] Cavity data are listed under linac segment 1




Beam line gate valves 6 [1] Does not include gate valves in cryomodules or stripper



Current Monitors 5 [1]

Beam Position Monitors 18 [1]

Slits 0 [1]

Emittance Systems 0 [1]

Faraday Cups 0 [1]

Fast Faraday Cups 0 [1]



Intensity reducing screens 0 [1]


View Detectors 0 [1]

Beam dump read-out electronics 1 [1] For 3 kW dump




















FRIB Parameter List

FRIB-T10501-BL-000002-R016 Page 16 of 46


Folding Segment 1 Ideogram Date 10/13/2015


FRIB Parameter List

FRIB-T10501-BL-000002-R016 Page 17 of 46



T.3.08


Segment Two Length 122.205 m [1]

Input Energy (liquid Li) 16.4 MeV/u

Input Energy (He gas stripping) 15.7 MeV/u


Uranium beam acceleration (liquid Li)

Liquid lithium stripping 78+



Uranium beam acceleration (gas stripping)

Helium gas stripping 71+



Acceptance (Nominal)

Transverse (beam size/aperture) 40.5 % 16.2 mm beam size; 40 mm aperture



l/2 , bopt 0.285 (LS2_CC)









RF Frequency 322 MHz [6]

Flange to flange length 0.3236 m [1],[6]




<Va> 2.09 MV

[6]

accelerating voltage design goal (includes transit time factor, at

beta = beta_opt)

R/Q (numerical calculation) 224.4 W [6] shunt impedance/Q (linac definition)

G (numerical calculation) 77.9 W [6] geometry factor






<q> 79 [6] average charge state (uranium case)




Pb (max) 1526 W

[6] max beam power (uranium case with contingency 10% on Va)


Delta_b 10.43 Hz

[6]


fluctuations



Cavity BW 57.0 Hz

[6]

RF BW considering microphonics, beam fluctuations, and

resolution of the tuner




Pf=Pg 2812 W [6] peak forward power required at power coupler (with

contingency). Additional amplifier requirement in T31201-SP-

000034, amplifier type RFA8.

Pnom 1945 W [6] nominal power with beam on at max with contingency (no

detuning)

Cryomodule length 3.60064 m [1]


Output Energy 54.58 MeV/u 49.72 MeV/u for He gas stripping









FRIB Parameter List

FRIB-T10501-BL-000002-R016 Page 18 of 46



T.3.08.02 Cavity & Cryomodule Configuration (continued)

l/2 , bopt 0.53 (LS2_CD)














<Va> 3.7 MV

[6]

accelerating voltage design goal (includes transit time factor, at

beta = beta_opt)

R/Q (numerical calculation) 229.5 W [6] shunt impedance/Q (linac definition)

G (numerical calculation) 107.4 W [6] geometry factor






<q> 79 [6] average charge state (uranium case)




Pb (max) 2701 W

[6] max beam power (uranium case with contingency 10% on Va)


Delta_b (at max) 6.02 Hz

[6]


fluctuations



Cavity BW 33.3 Hz

[6]

RF BW considering microphonics, beam fluctuations, and

resolution of the tuner




Pf=Pg 4974 W [6] peak forward power required at power coupler (with

contingency). Additional amplifier requirement in T31201-SP-

000034, amplifier type RFA9.

Pnom 3462 W [6] nominal power with beam on at max with contingency (no

detuning)




T.3.08.07 Vacuum Vacuum requirements are listed in T31201-SP-000031


Warm region envelope for diagnostics 0.38 m [1]



Slits 0 [1]


Faraday Cups 0 [1]



















FRIB Parameter List

FRIB-T10501-BL-000002-R016 Page 19 of 46


Linac Segment 2 IdeogramDate 10/13/2015


FRIB Parameter List

FRIB-T10501-BL-000002-R016 Page 20 of 46


Folding Segment 2 Parameter ListDate 3/12/2015

T.3.09



Input Energy (liquid Li stripping case) 148.6 MeV/u Charge state 78+

Input Energy (He gas stripping case) 129.9 MeV/u Charge state 71+

Beam Transport Section (FS2_BTS)

Beam transport section length4.0600

m [1]

Length along primary beam path. (excludes items leading to

beam dump)





T.3.09.06 Beam Dump 1 [1] Additional requirements in T31201-SP-000039


Beam Bending Section (FS2_BBS)

Bending section length 17.1059 m [1]

T.3.09.03 Dipoles (45 deg, type D3) 4 [1] SC Dipoles, allow for fault scenarios (e.g. U63+)





Beam Matching Section (FS2_BMS)

Beam matching section length 19.0900 m [1]

T.3.09.04 Matching l/2 , bopt 0.53 cryomodules (FS2_CG01) 1 [1] Cavity data are listed under linac segment 2







T.3.09.01Diagnostics

[4] Diagnostics requirements are listed in T31201-SP-000021



Slits 0 [1]


Faraday Cups 0 [1]







Beam dump read-out electronics 0 [1]










FRIB Parameter List

FRIB-T10501-BL-000002-R016 Page 21 of 46


Folding Segment 2 IdeogramDate 10/13/2015


FRIB Parameter List

FRIB-T10501-BL-000002-R016 Page 22 of 46



T.03.10


Segment Three Length 112.064 m [1]

Uranium beam acceleration (liquid Li stripping) Charge state 78+




Proton beam output energy 601 MeV

Uranium beam acceleration (He gas stripping) Charge state 71+


Output Energy 179.3 MeV/u 202.1 MeV/u with 3 extra cryomodules in LS3


Acceptance

Transverse (beam size/aperture) 37.5 % 17 mm beam size, 40 mm aperture



l/2 , bopt 0.53 (LS3_CD) Cavity data are listed under LS2




Number of cavities 48 [1] Amplifier type RFA9 in T31201-SP-000034 Number of gate valves 12 [1] 2 per cryomodule

Number of solenoids (type S2) 6 [1]





Beam Transport Section (LS3_BTS) Space for 12 CMs; risk mitigation for when gas stripping is used

as well as upgrade possibility

Beam transport section length 74.8460 m [1]





T.3.10.01Diagnostics [4]

Diagnostics requirements are listed in T31201-SP-000021

Warm region envelope for diagnostics 0.38 m [1]



Slits 0 [1]


Faraday Cups 0 [1]







Upgrade related parameters (based on liquid lithium charge stripping) Not baseline

12 extra CMs in LS3 18 cryomodules total in Linac Segment 3

Final energy (U beam) 306 MeV/u

Final energy (p beam) 878 MeV

12 extra CMs in LS3 and 35% better performance for all HWRs 18 cryomodules total in Linac Segment 3

Final energy (U beam) 400 MeV/u

Final energy (p beam) 1100 MeV Energy ramp-up will be such as to stay within the

Linac Segment 3 Ideogram Date 10/13/2015








FRIB Parameter List

FRIB-T10501-BL-000002-R016 Page 23 of 46


Beam Delivery System Parameter ListDate 3/20/2014

T.3.11



Input Energy 202.1 MeV/u Uranium 78+ (average charge state, liquid Li stripping)

Input Energy 179.3 MeV/u Uranium 71+ (average charge state, He gas stripping); 202.1

MeV/u with 3 extra cryomodules in LS3

Beam Transport Section (BDS_BTS)

Beam transport section length11.9583

m [1]

Length along primary beam path. (excludes items leading to beam

dump)




T.3.11.04 Beam Dump 1 [1] Additional requirements in T31201-SP-000039


Beam Bending Section (BDS_BBS) 70 deg bend

Beam bending section length 16.9962 m [1]

T.3.11.02 Dipoles (17.5 deg, type D4) 4 [1] RT Dipole; allow for fault scenarios (e.g. U63+)




Final Focus Section (BDS_FFS)

Final focus section length 10.0279 m [1]










Slits 0 [1]


Faraday Cups 0 [1]







Beam dump read-out electronics 0 [1]








FRIB Parameter List

FRIB-T10501-BL-000002-R016 Page 24 of 46


Beam Delivery System IdeogramDate 4/3/2014


FRIB Parameter List

FRIB-T10501-BL-000002-R016 Page 25 of 46


Production Target Systems Parameter ListDate 4/1/2014

T.4.03


T.4.03.04 Target Systems

Number of target stations 1

T.4.03.01 Beam Quality On-Target Supporting information in technical note FRIB-T40301-TD-000180

Beam spot size (diameter) 1 mm [8] See PRD T10100-BL-000025

Beam angular spread ≤±5 mrad [8]

Beam Power ≤400 kW [8]

Beam energy ≥200 MeV/u [8]

Power level adjustment range 1E-5 to 1 without change in time structure (no chopping)

Types of beam H to U All stable isotopes

Beam spot center deviation +/- 0.1 mm

Beam direction deviation H&V +/- 3

mrad Accuracy of angle relative to established reference (repeatability)

Energy Specifications

Beam energy reproducibility +/- 0.5 %

Maximum energy spread +/- 0.5 % relative to mean energy

Beam energy adjustment range 80 - 100 % of maximum beam energy

Time Structure Specifications

Bunch repetition rate 80.5 or 40.25 MHz

Bunch length 3 ns

Maximum time for change of primary beam 24 h

Provisions for enhanced capabilities Provisions to be included in design (e.g. through providing space)

Maximum energy spread option +/- 0.2 %

Bunch length 1.5 ns

Bunch repetition rate 20.125 MHz

Power level adjustment range 1E-8 to 1 without change in time structure (no chopping)

T.4.03.04 Production Target Specifications

Maximum absorbed beam power 100 kW

Maximum length along beam direction 50 mm Desired: 25 mm

Maximum target inhomogeneity +/- 4 %

T.4.03.04 Beam dump # 1

Max beam power (continuous operation) 325 kW Based on target thickness = 30 % of range

Max beam power (less than 10% of time) 400 kW In case of target loss, assumed reaction time < 10 ms

Primary beam spot size in dispersive direction (rms) > 0.5 mm Case dependent

Dump positioning tolerance in dispersive direction (V) +/- 1 mm

T.4.03.04 Fragment dumps associated with beam dump # 1

Number of fragment dumps 2

Max beam power (per fragment dump) 10 kW

Fragment dump positioning tolerance in dispersive direction (V) +/- 1 mm

Beam dump # 2

Implementation post CD-4 space reserved in preseparator layout

T.4.03.02 Diagnostics [9] Diagnostics requirements in T40302-SP-000077

T.4.03.07 Vacuum [10] Vacuum requirements are listed in T40307-SP-000072

Production Target SystemsDate 6/28/2011

Please refer to the tab "Fragment Separator" for the ideogram

https://portal.frib.msu.edu/dcc/pages/dcclink.aspx?WBS=T10100&Sub=BL&SN=000025







FRIB Parameter List

FRIB-T10501-BL-000002-R016 Page 26 of 46


Fragment Separator Parameter ListDate 2/17/2014

T.4.03


T.4.03.01 Preseparator

Segment length 46.4 m [1] Along beam axis (object to focal plane)

Segment length (projection) 40.74 m Projection onto direction of incoming beam

Bending direction vertical

Elevation change 9.906 m [1] Between entrance and exit beam axes

Operational Modes 2 Principle operational modes, not counting minor modifications

Beam dump # 1 mode

Angular acceptance HxV [8] See PRD T10100-BL-000025

Momentum acceptance [8] See PRD T10100-BL-000025

Max. magnetic rigidity [8] See PRD T10100-BL-000025

Min. magnetic rigidity 2 Tm Fulfilling field homogeneity and stability requirements

Dispersive images 3 Beam dump, wedge, center of section 2

Achromatic images 1 Exit of preseparator

Momentum compression factor 1/3

Momentum resolving power 1700 In 1st order at wedge shaped energy degrader and assuming a 1 mm beam

spot

Beam dump # 2 mode

Angular acceptance HxV +/- 40x40 mrad

Momentum acceptance +/- 1.5 %

Max. magnetic rigidity 6.2 Tm

Min. magnetic rigidity 2 Tm Fulfilling field homogeneity and stability requirements

Dispersive images 3 Beam dump, wedge, center of section 2

Achromatic images 1 Exit of preseparator

Momentum compression factor 1/1.5

Momentum resolving power 1200 In 1st order at wedge shaped energy degrader and assuming a 1 mm beam

spot

Section 1 (FS_F1S1)

T.4.03.04 Collimator 1 [1] To shield quadrupoles from penetrating particles

Max. power absorption of collimator 70 kW

T.4.03.03 Quadrupoles (type FSQ1)1

[1] Room Temperature. All FS magnet types defined in T40301-SP-000064 [18]

T.4.03.03 Quadrupoles (type FSQ2) 1 [1] Superconducting, with superimposed sextupole and octupole





T.4.03.03 Dipoles (type FSD1) 2 [1] 30 degree bending angle, superconducting

T.4.03.03 Sextupoles (type FSS1) 1 [1] Radiation tolerant, octupole superimposed

T.4.03.03 Sextupoles (type FSS2) 1 [1] Radiation tolerant, octupole superimposed

T.4.03.04 Wedge system 1 [1]

Remotely replaceable wedge 1 [1] Achromatic and momentum compressing

Max. power deposition 2 kW

Provisions for enhanced capabilities Provisions to be included in design (e.g. through providing space)

Charge State Dump 1 Not baseline, implementation post CD-4

Dump max. power deposition 4 kW

Section 2 (FS_F1S2)





T.4.03.03 Dipoles (type FSD2) 2 [1] 50 degree bending angle, superconducting

T.4.03.03 Correction Multipoles 0 [1] Space for 2 correction dipoles in design

T.4.03.01 Misalignment tolerances [12] Alignment requirements are listed in T40300-SP-000074

T.4.03.07 Vacuum [10] Additional vacuum requirements are listed in T40307-SP-000072

Gate valves 1 [1]

Fast acting gate valves 1 [1]













FRIB Parameter List

FRIB-T10501-BL-000002-R016 Page 27 of 46



Preseparator Diagnostics [9] Fragment Separator Diagnostics Requirements in T40302-SP-000077

T.4.03.02 Thermal Profile Monitors 2 [1] For target and beam dump (1xFSTAIM, 1xFSBDIM)

T.4.03.02 Beam Profile Detectors (low power, retractable) 4 [1] During start-up phase (2xFSPM1, 0xFSPM2, 2xFSPM3)

Beam profile viewers 4

[1]

Existing A1900 equipment and identical/similar; remotely retractable; incl.

cameras (1xFSVD1, 1xFSVD2, 1xFSVD3, 1xFSVD4)

T.4.03.04 Slit system in front of wedge 1 [1] Remotely adjustable in dispersive direction (1xFSSV1)

Maximum beam power 3 kW

T.4.03.04 Slit system at focal plane (preseparator exit) 2 [1] Remotely adjustable in both directions (1xFSSV3, 1xFSSH1)

Maximum beam power 2 kW

T.4.03.02 Focal plane detectors

Timing detectors 1

[1]remotely retractable; identical/similar to A1900 detectors (1xFSTD1)

Particle identification detectors 1

[1]

Z resolving, remotely retractable; identical/similar to A1900 detectors

(1xFSEL1, 0xFSEL2)

T.4.03.02 Faraday cups 1 [1] remotely retractable (1xFSFC1)

Fragment Separator System Stage 1 (Preseparator)Date 4/1/2014


Separator Stages 2 and 3 Reconfigured A1900 separator

T.4.03.01 Bending direction horizontal

Number of stages 2

Max. magnetic rigidity 7 Tm

Operational Modes 2 principle operational modes, not counting minor modifications

Single Stage Mode All horizontal stages combined to one stage

Horizontal angular acceptance variable To be adjusted to phase space of specific cases from preseparator

Vertical angular acceptance variable To be adjusted to phase space of specific cases from preseparator

Momentum acceptance variable To be adjusted to phase space of specific cases from preseparator

Momentum resolving power variable, typically > 3000 1st order for 1mm object size, to be adjusted to phase space of specific

cases from preseparator

Two Stage Mode Two horizontal separation stages

Horizontal angular acceptance (typical) +/- 27 mrad

Vertical angular acceptance (typical) +/- 34 mrad

Momentum acceptance (typical) +/- 1.66 %

Momentum resolving power (each stage) 1300 1st order for 1mm object size in one specific tune; depends on tune

Stage 2 (FS_F2S1 and FS_F2S2)

Segment length 19.87 m [1] Object to focal plane

T.4.03.05 Quadrupoles (type FSQA) 2 [1] Existing A1900 magnets

T.4.03.05 Quadrupoles (type FSQB)6

[1]Existing A1900 magnets with superimposed sextupole and octupole

T.4.03.05 Quadrupoles (type FSQC)2


T.4.03.05 Quadrupoles (type FSQD) 1 [1] Existing A1900 magnets

T.4.03.05 Quadrupoles (type FSQE) 1 [1] Existing A1900 magnets

T.4.03.05 Dipoles (type FSDA) 2 [1] Existing A1900 magnets, bending angle reduced to 30 degree.

T.4.03.01 Dispersive images 1 [1] Slits, wedge

T.4.03.01 Achromatic Images (in Two Stage Mode) 1 [1] End of stage, slits

T.4.03.05 Wedge systems 2 [1] At dispersive image

Remotely retractable wedge 2 [1] Achromatic, 1 each for Single Stage Mode and Two Stage Mode

T.4.03.02 Slit systems 2

[1]

Dispersive and achromatic image; remotely adjustable (1xFSSH2, 1xFSSH3)




FRIB Parameter List

FRIB-T10501-BL-000002-R016 Page 28 of 46



Stage 3 (FS_F3S1 and FS_F3S2)

Segment length 20.27 m [1] Object to focal plane

T.4.03.05 Quadrupoles (type FSQA) 2 [1] Existing A1900 magnets

T.4.03.05 Quadrupoles (type FSQB)6


T.4.03.05 Quadrupoles (type FSQC)2


T.4.03.05 Quadrupoles (type FSQD) 1 [1] Existing A1900 magnets

T.4.03.05 Quadrupoles (type FSQE) 1 [1] Existing A1900 magnets

T.4.03.05 Dipoles (type FSDA) 2 [1] Existing A1900 magnets, bending angle reduced to 30 degree.

T.4.03.01 Dispersive images 1 [1] Slits, wedge

T.4.03.01 Achromatic Images 1 [1] End of stage, slits

T.4.03.05 Wedge systems 1 [1]

Remotely retractable wedge 1 [1] Achromatic

T.4.03.02 Slit systems 3

[1]

Dispersive and achromatic image; remotely adjustable (1xFSSH3, 1xFSSH4,

1xFSSV4)

T.4.03.07 Vacuum (Stages 2 and 3) [10] Additional vacuum requirements are listed in T40307-SP-000072

Gate valves 4 [1]

T.4.03.02 Diagnostics (horizontal stages)

Beam profile detectors 8

[1]

Existing A1900 equipment and identical/similar. PPACs, 2 per relevant

focal plane; remotely retractable (4xFSPM4, 2xFSPM5, 2xFSPM3)

Beam profile viewers 4

[1]

Existing A1900 equipment and identical/similar; remotely retractable; incl.

cameras (1xFSVD5, 1xFSVD6, 1xFSVD7, 1xFSVD8)

Timing detectors 2

[1]

At stage 3 exit. Existing A1900 equipment; remotely retractable (2xFSTD1)

Particle identification detectors 2 [1] Z resolving, at stage 3 exit; remotely retractable (2xFSEL1)

Fast beam profile detectors 1 [1] At stage 3 dispersive focal plane; remotely retractable (1xFSTD2)

Particle identification detectors 1 [1] TKE resolving, at stage 3 exit; remotely retractable (1xFSEL2)

Faraday cups 2 [1] Remotely retractable (2xFSFC2)

Reentrant can for photon detector 1 [1] Retractable (desired), (1xFSGE1)

Fragment Preseparator and Separator System Stages 2 and 3Date 4/1/2014




FRIB Parameter List

FRIB-T10501-BL-000002-R016 Page 29 of 46


Cryogenic System Parameter ListDate 1/16/2014

T.3 Cryomodule counts

Cryomodule Type Count Ref. Comments

l/4 , bopt 0.041 3 [1], [11] 80.5 MHz; type A, located in LS1

l/4 , bopt 0.085 11 [1], [11] 80.5 MHz; type B, located in LS1

l/2 , bopt 0.285 12 [1], [11] 322 MHz; type C, located in LS2

l/2 , bopt 0.53 18 [1], [11] 322 MHz;type D, located in LS2 and LS3

l/4 , bopt 0.085 (matching) 4 [1], [11] 80.5 MHz;type H, located in LS1 and FS1

l/2 , bopt 0.53 (matching) 1 [1], [11] 322 MHz;type G, located in FS2

Total cryomodule count 49 [1], [11]

T.3.02 Cryogenic heat loads are also listed in [11]

WBS Parameter Qty at 2 K Qty at 4.5 K Qty at 38/55 K Unit Lead Flow Unit Ref. Comments

Cryomodule Heat Loads (static) Calculated loads per cryomodule

Seg1, Beta = 0.041 3.0 12.8 118.7 W 1.2 L/h [11]

Seg1, Beta = 0.085 4.0 20.5 167.2 W 1.8 L/h [11]

Seg2, Beta = 0.285 5.1 13.1 103.7 W 0.6 L/h [11]

Seg2&3, Beta = 0.53 6.3 16.1 125.8 W 0.6 L/h [11]

Matching 1 beta= 0.085 TBD TBD TBDW

0 L/h [11]

Load calculations needed to be done for the 4 cavity

cryomodule.

Matching 2 beta = 0.53 3.9 7.8 67.5 W 0 L/h [11]

Total Static Load 250.4 767.0 6149.0 W [11] Baseline cryomodules + 3 extra beta=0.53

Cryomodule Heat Loads (dynamic) Calculated loads per cryomodule

Seg1, Beta = 0.041 5.4 0.3 4.5 W [11]

Seg1, Beta = 0.085 32.0 2.1 33.4 W [11]

Seg2, Beta = 0.29 22.8 7.3 11.9 W [11]

Seg2&3, Beta = 0.53 65.4 13.3 19.6 W [11]

Matching 1 beta= 0.085 TBD TBD TBDW

[11]

Load calculations needed to be done for the 4 cavity

cryomodule.

Matching 2 beta = 0.53 32.7 6.7 9.8 W [11]

Total Dynamic Load 2047.9 397.6 58.8 W [11] Baseline cryomodules + 3 extra beta=0.53

CM Total Load (Static+Dynamic) 2298 1165 6208 W [11] Baseline cryomodules + 3 extra beta=0.53

Magnets 0 573 1640 W [11] Folding Segment 2 and Fragment Separator

Distribution Line 0 1006 4787 W [11]

Beam Loss 0 25 0W

[11] Based on 1 W/m; 90% deposited at 300 K, 10% at 4.5 K

Total Heat Load 2298 2769 12635 W [11]

T30200-TD-000244

https://portal.frib.msu.edu/dcc/pages/dcclink.aspx?WBS=T30200&Sub=TD&SN=000244


FRIB Parameter List

FRIB-T10501-BL-000002-R016 Page 30 of 46


Control System Parameter ListDate 3/12/2012


T.3.13.04 Personnel Protection System [13] PPS requirements are listed in T10500-CM-000115

T.3.04.01

T.4.06.01

Machine Protection System [14] MPS requirements are listed in T31201-SP-000040

Primary mitigation device Electrical Dipole in FE

T.3.04.02 Global Timing System [15] Timing requirements are listed in T31201-SP-000038

T.3.13.01 Central Control Systems [16] High Level Controls requirements are listed in T31301-SP-000078

Control system framework EPICS

Controls network Ethernet based

https://portal.frib.msu.edu/dcc/pages/dcclink.aspx?WBS=T10500&Sub=CM&SN=000115










FRIB Parameter List

FRIB-T10501-BL-000002-R016 Page 31 of 46


RF System Parameter ListDate 3/12/2015


Amplifiers for: [5] Additional requirements in T31201-SP-000034

T.3.05.08 FE Bunchers 6 [1] Amplifier types: 2xRFA1, 1xRFA2, 1xRFA3, 2xRFA4

T.3.05.08 FE RFQ 1 [1] Type RFA5

T.3.06.05 beta=0.041 SC cavity 12 [1] Type RFA6



T.3.08.06

T.3.10.06

beta=0.530 SC cavity 144 [1] Type RFA9

T.3.06.05 beta=0.085 SC cavity 4 [1] Type RFA10 (not installed initially)

T.3.07.09 beta=0.085 SC cavity 12 [1] Type RFA10 (2 not installed initially)


Total 343




FRIB Parameter List

FRIB-T10501-BL-000002-R016 Page 32 of 46


Diagnostics Parameter List

Device Name Units Comments

Beam Current Monitors Requirements in T31201-SP-000021 [4]T 3. 05. 01. Number of FE current monitors 3

T 3. 06. 01. Number of LS1 current monitors 0

T 3. 07. 01. Number of FS1 current monitors 5


T 3. 09. 01. Number of FS2 current monitors 2


T 3. 11. 01. Number of BDS current monitors 2

Total Number of current monitors 12

Beam Position Monitors Requirements in T31201-SP-000021 [4]T 3. 05. 01. Number of FE beam position monitors 4

T 3. 06. 01. Number of LS1 beam position monitors 59

T 3. 07. 01. Number of FS1 beam position monitors 18


T 3. 09. 01. Number of FS2 beam position monitors 12


T 3. 11. 01. Number of BDS beam position monitors 10

Total Number of beam position monitors 147

Slits Requirements in T31201-SP-000021 [4]T 3. 05. 01. Number of FE slits 3

T 3. 06. 01. Number of LS1 slits 0

T 3. 07. 01. Number of FS1 slits 0


T 3. 09. 01. Number of FS2 slits 0


T 3. 11. 01. Number of BDS slits 0

Total Number of slits 3

Apetures Requirements in T31201-SP-000021 [4]T 3. 05. 01. Number of FE apetures 3

T 3. 06. 01. Number of LS1 apetures 0

T 3. 07. 01. Number of FS1 apetures 0


T 3. 09. 01. Number of FS2 apetures 0


T 3. 11. 01. Number of BDS apetures 0

Total Number of apetures 3

Emittance System Requirements in T31201-SP-000021 [4]T 3. 05. 01. Number of FE emittance systems 3

T 3. 06. 01. Number of LS1 emittance systems 0

T 3. 07. 01. Number of FS1 emittance systems 0


T 3. 09. 01. Number of FS2 emittance systems 0


T 3. 11. 01. Number of BDS emittance systems 0

Total Number of emittance systems 3

Faraday Cup Requirements in T31201-SP-000021 [4]

T 3. 05. 01. Number of FE faraday cups 8

T 3. 06. 01. Number of LS1 faraday cups 0

DRIVER LINAC WBS




















FRIB Parameter List

FRIB-T10501-BL-000002-R016 Page 33 of 46


T 3. 07. 01. Number of FS1 faraday cups 0


T 3. 09. 01. Number of FS2 Faraday cups 0


T 3. 11. 01. Number of BDS faraday cups 0

Total Number of faraday cups 8

Beam Dump Read out Requirements in T31201-SP-000021 [4]

T 3. 05. 01. Number of FE Beam Dump Read out 0

T 3. 06. 01. Number of LS1 Beam Dump Read out 0

T 3. 07. 01. Number of FS1 Beam Dump Read out 1


T 3. 09. 01. Number of FS2 Beam Dump Read out 0


T 3. 11. 01. Number of BDS Beam Dump Read out 0

Total Number of Beam Dump Read out 1





FRIB Parameter List

FRIB-T10501-BL-000002-R016 Page 34 of 46


Device Name Units Comments

Fast Faraday Cup Requirements in T31201-SP-000021 [4]T 3. 05. 01. Number of FE fast faraday cups 2

T 3. 06. 01. Number of LS1 fast faraday cups 0

T 3. 07. 01. Number of FS1 fast faraday cups 0


T 3. 09. 01. Number of FS2 fast faraday cups 0


T 3. 11. 01. Number of BDS fast faraday cups 0

Total Number of fast faraday cups 2

Bunch Length Measurement Requirements in T31201-SP-000021 [4]

T 3. 05. 01. Number of FE bunch length measurement 0

T 3. 06. 01. Number of LS1 bunch length measurement 0

T 3. 07. 01. Number of FS1 bunch length measurement 1


T 3. 09. 01. Number of FS2 bunch length measurement 0


T 3. 11. 01. Number of BDS bunch length measurement 0

Total Number of bunch length measurement 1

Beam Loss Monitors Requirements in T31201-SP-000021 [4]T 3. 05. 01. Number of FE beam loss monitors 0

T 3. 06. 01. Number of LS1 beam loss monitors 39

T 3. 07. 01. Number of FS1 beam loss monitors 18


T 3. 09. 01. Number of FS2 beam loss monitors 16


T 3. 11. 01. Number of BDS beam loss monitors 12

Total Number of beam loss monitors 145

Intensity reducing screens Beam attenuators

T 3. 05. 01. Number of FE beam attenuators 2 Requirements in T31201-SP-000021 [4]T 3. 06. 01. Number of LS1 beam attenuators 0

T 3. 07. 01. Number of FS1 beam attenuators 0

T 3. 08. 01. Number of LS2 beam attenuators 0

T 3. 09. 01. Number of FS2 beam attenuators 0

T 3. 10. 01. Number of LS3 beam attenuators 0

T 3. 11. 01. Number of BDS beam attenuators 0

Total Number of beam attenuators 2

Profile Monitors Requirements in T31201-SP-000021 [4]T 3. 05. 01. Number of FE profile monitors 13

T 3. 06. 01. Number of LS1 profile monitors 2

T 3. 07. 01. Number of FS1 profile monitors 11


T 3. 09. 01. Number of FS2 profile monitors 4


T 3. 11. 01. Number of BDS profile monitors 7

Total Number of profile monitors 41

View Detectors Requirements in T31201-SP-000021 [4]T 3. 05. 01. Number of FE view detectors 5

T 3. 06. 01. Number of LS1 view detectors 0

T 3. 07. 01. Number of FS1 view detectors 0


T 3. 09. 01. Number of FS2 view detectors 0

DRIVER LINAC WBS




















FRIB Parameter List

FRIB-T10501-BL-000002-R016 Page 35 of 46



T 3. 11. 01. Number of BDS view detectors 0

Total Number of view detectors 5

T 4. 03. 02. Fragment Separator Diagnostics Requirements in [9] T40302-SP-000077

FRAGMENT

SEPARATOR WBS



FRIB Parameter List

FRIB-T10501-BL-000002-R016 Page 36 of 46


Optical ElementsDate 4/29/2015

T.3 FE-RT FE-SC LS1-RT FS1-RT FS2-RT FS2-SC LS3-RT BDS-RT

WBS WBS WBS WBS WBS WBS WBS WBS

Name* Element description T.3.05.02 T.3.05.03 T.3.06.07 T.3.07.02 T.3.09.02 T.3.09.03 T.3.10.02 T.3.11.02 TOTALS

D1 RT Dipole 5 Deg 8 8


D3 SC Dipole 45 Deg 4 4

D4 RT Dipole 17.5 Deg 4 4



D7 RT E-Dipole 2 2

Q1 RT Quad L: 25 cm D: 50 mm 12 27 12 28 11 90

Q2 RT Quad L: 26 cm D: 75 mm 2 1 3 6

Q3 RT Quad L: 40 cm D: 75 mm 1 1 2

Q4 RT Quadrupole L: 33 cm D: 90 mm 4 4

Q5 RT Quadrupole L: 40 cm D: 90 mm 2 4 6


Q7 RT E-Quad 30 30



H1 RT Sextupole L: 10 cm D: 100 mm 4 4



C1 RT HE Corr-14 2 2

C2 RT HE Corr-5 6 13 7 14 6 46

C3 RT HE Corr-10 3 3 6

C4 FE LEBT Corrector 21 21

S3 SC Solenoid FE_MEBT 0

S4 RT Solenoid FE_LEBT 10 10

S4S RT Solenoid FE_SCS 1 1

TOTALS 81 0 18 62 34 4 42 34 275

LS1-SC LS2-SC LS3-SC

WBS WBS WBS

Name* Element description T.3.06.02 T.3.08.02 T.3.10.03 TOTALS

S1 SC Solenoid 0.25 m (CA) 6 6

S2 SC Solenoid 0.5 m (CB,CC,CD) 33 24 6 63

TOTALS 39 24 6 69

*Names as listed in the requirements document [17]

T.4 FS-RT FS-SC Existing fragment separator beam line FS-SC

WBS WBS WBS

Name** Element description T.4.03.03 T.4.03.03 TOTALS Name** T.4.03.05

FSD1 SC Dipole 30 Deg 2 2 FSDA 4

FSD2 SC Dipole 50 Deg 2 2 FSQA 4

FSQ1 RT Quad 60 cm 220 mm 1 1 FSQB 12

FSQ2 SC Quad 75 cm 260 mm 1 1 FSQC 4

FSQ3 SC Quad 65 cm 260 mm 1 1 FSQD 2

FSQ4 SC Quad 65 cm 440 mm 1 1 FSQE 2

FSQ5 SC Quad 70 cm 400 mm 2 2 TOTALS 28

FSQ6 SC Quad 70 cm 340 mm 1 1





FSS1 RT Sextupole 50 cm 260 mm 1 1

FSS2 RT Sextupole 40 cm 200x400 mm 1 1

TOTALS 2 23 25

**Names as listed in the requirements document [18] T40301-SP-000064

T30102-SP-000289

SC Quad 70 cm 230 mm

Element description

SC Dipole 30 Deg

SC Quad 72.3 cm 200 mm



SC Quad 48.6 cm 340 mm




FRIB Parameter List

FRIB-T10501-BL-000002-R016 Page 37 of 46


Power SuppliesDate 9/14/2015

T.3 Ion Sources

Optical Element1 PS type2 # of PS/element RT source SC source TOTALS

Extraction PSECR1 1 0 1 1

Puller PSECR2 1 0 1 1

Bias disk PSECR3 1 0 1 1

Sputter PSECR4 1 0 1 1

Platform PSECR5 1 1 1 2

Sextupole PSECR6 1 0 1 1

Resistive oven PSECR8 1 1 1 2

Solenoid (source) PSECR9 1 2 0 2

Solenoid (source) PSECR10 1 0 3 3

TOTALS 4 10 14

T.3 Beam line FE-RT FE-SC LS1-RT LS1-SC FS1-RT LS2-SC FS2-RT FS2-SC LS3-RT LS3-SC BDS-RT

WBS WBS WBS WBS WBS WBS WBS WBS WBS WBS WBS

Optical Element1

PS type2 # of PS/element T.3.05.07 T.3.05.07 T.3.06.04 T.3.06.04 T.3.07.08 T.3.08.05 T.3.09.07 T.3.09.07 T.3.10.05 T.3.10.05 T.3.11.05 TOTALS

Repelling Electrode PSEL1 1 2 2

D1 PSD1 0.25 2 2

D2 (main coil) PSD2 0.25 1 1

D2 (trim coil) PSD2t 1 4 4

D3 PSD3 1 4 4

D4 (main coil) PSD4 0.25 1 1

D4 (trim coil) PSD4 1 0

D5 PSD5a 1 3 3

D5 PSD5b 1 1 1

D6 PSD6 1 1 1

D7 (+) PSD7a 1 2 2

D7 (-) PSD7b 1 2 2

Q1 PSQ1a 1 4 7 8 1 20

Q1 PSQ1b 1 8 10 12 20 10 60

Q1 PSQ1c 1 0

Q1 PSQ1d 1 10 10

Q2 PSQ2 1 2 1 3 6

Q3 PSQ3 1 1 1 2

Q4 PSQ4 1 4 4

Q5 PSQ5 1 2 4 6

Q6 PSQ6 1 4 4

Q7 (+) PSQ7a 1 30 30

Q7 (-) PSQ7b 1 30 30

Q8 (main coil) PSQ8a 1 8 8

Q8 (corrector) PSQ8b 1 8 8

Q9 PSQ9 1 4 4

H1 PSH1 1 4 4

H2 PSH2 1 0 2 2

H3 PSH3 1 2 2

C1 PSC1 2 4 4

C2 PSC2 2 12 26 14 28 12 92

C3 PSC3 2 6 6 12

C43 PSC4 2 38 38

S1 (solenoid) PSS1a 1 6 6

S1 (correctors) PSS1b 2 12 12

S2 (solenoid) PSS2a 1 33 24 6 63

S2 (correctors) PSS2b 2 66 48 12 126

S3 (solenoid) PSS3a 1 0 0

S3 (correctors) PSS3b 2 0 0

S4 PSS4a 1 5 5

S4 PSS4b 1 5 5

S4S PSS4b 1 1 1

CHP (+) PSCHPa 1 1 1

CHP (-) PSCHPb 1 1 1

TOTALS 142 0 24 117 72 72 44 4 56 18 40 5891 Names as listed in the requirements document [17]2 Names as listed in the requirements document [2]3 Two C4 magnets do not require power in the baseline design.

T30102-SP-000290

T30102-SP-000289




FRIB Parameter List

FRIB-T10501-BL-000002-R016 Page 38 of 46


Power SuppliesDate 9/16/2015

T.3 Cryomodules FE-RT FE-SC LS1-RT LS1-SC FS1-RT LS2-SC FS2-RT FS2-SC LS3-RT LS3-SC BDS-RT

WBS WBS WBS WBS WBS WBS WBS WBS WBS WBS WBS

Powered Element PS type # of PS/element T.3.05.07 T.3.05.07 T.3.06.04 T.3.06.04 T.3.07.08 T.3.08.05 T.3.09.07 T.3.09.07 T.3.10.05 T.3.10.05 T.3.11.05 TOTALS

HTR (cavity) PSX1 1 0 0 0 100 12 168 0 4 0 48 0 332

HTR (2k) PSX2 1 0 0 0 15 3 24 0 1 0 6 0 49

HTR (solenoid) PSX3 1 0 0 0 39 0 24 0 0 0 6 0 69

TOTALS 0 0 0 154 15 216 0 5 0 60 0 450

T.4 Experimental Systems FS-RT FS-SC FS-RT FS-SC Existing fragment separator beam line FS-SC

WBS WBS WBS WBS WBS n/a

Optical Element4 PS type5 # of PS/element T.4.05.06 T.4.05.06 T.4.05.06 T.4.05.06 TOTALS Name4 TOTALS

FSD1 PSFSD1 1 2 2 FSDA 4

FSD2 PSFSD2 1 2 2 FSQA 4

FSQ1 PSFSQ1 1 1 1 FSQB 36

FSQ2 (quad) PSFSQ2a 1 1 1 FSQC 12

FSQ2 (sxt) PSFSQ2b 1 1 1 FSQD 2

FSQ2 (oct) PSFSQ2c 1 1 1 FSQE 2

FSQ3 (quad) PSFSQ3a 1 1 1 TOTALS 60

FSQ3 (sxt) PSFSQ3b 1 1 1

FSQ3 (oct) PSFSQ3c 1 1 1

FSQ4 (quad) PSFSQ4a 1 1 1





















FSS1 (sxt) PSFSS1a 1 1 1

FSS1 (oct) PSFSS1b 1 1 1

FSS1 (aux) PSFSS1c 1 1 1

FSS2 (sxt) PSFSS2a 1 1 1

FSS2 (oct) PSFSS2b 1 1 1

FSS2 (aux) PSFSS2c 1 1 1

TOTALS 7 20 0 38 654 Names as listed in the requirements document [18]5 Names as listed in the requirements document [25]

T40301-SP-000064

T40303-SP-000288

Hot Cell

1

1

3

Preseparator

PS type5 # of PS/element

PSFSDA

PSFSQA

PSFSQD

PSFSQE

1

1

PSFSQB

3PSFSQC




FRIB Parameter List

FRIB-T10501-BL-000002-R016 Page 39 of 46


Additional Power Supply Requirements

9/23/2015

Q1 magnet three tiered power supply requirements

SystemSub-

system

Power Supply

Type

LS1 BTS PSQ1a

LS1 BTS PSQ1a

LS1 BTS PSQ1a

LS1 BTS PSQ1a

LS1 BTS PSQ1b

LS1 BTS PSQ1b

LS1 BTS PSQ1b

LS1 BTS PSQ1b

LS1 BTS PSQ1b

LS1 BTS PSQ1b

LS1 BTS PSQ1b

LS1 BTS PSQ1b

FS1 CSS PSQ1b

FS1 CSS PSQ1b

FS1 CSS PSQ1a

FS1 CSS PSQ1a

FS1 CSS PSQ1b

FS1 CSS PSQ1b

FS1 CSS PSQ1b

FS1 CSS PSQ1b

FS1 CSS PSQ1b

FS1 CSS PSQ1b

FS1 CSS PSQ1a

FS1 CSS PSQ1a

FS1 BTS PSQ1a

FS1 BTS PSQ1a

FS1 BTS PSQ1a

FS1 BMS PSQ1d

FS1 BMS PSQ1d

FS1 BMS PSQ1d

FS1 BMS PSQ1d

FS1 BMS PSQ1d

FS1 BMS PSQ1d

FS1 BMS PSQ1d

Because of the varying power requirements for Q1 magnets three different power supply types are used in the design.

The table below gives the types of power supplies used by subsystem in order of beamline position. Exact magnet

positions are given in the Lattice File [1].

Q1 power supply types by beamline position:


FRIB Parameter List

FRIB-T10501-BL-000002-R016 Page 40 of 46


FS1 BMS PSQ1d

FS1 BMS PSQ1d

FS1 BMS PSQ1d

FS1 BMS PSQ1b

FS1 BMS PSQ1b

FS2 BTS PSQ1b

FS2 BTS PSQ1b

FS2 BTS PSQ1b

FS2 BTS PSQ1b

FS2 BMS PSQ1b

FS2 BMS PSQ1b

FS2 BMS PSQ1b

FS2 BMS PSQ1b

FS2 BMS PSQ1b

FS2 BMS PSQ1b

FS2 BMS PSQ1b

FS2 BMS PSQ1b

LS3 BTS PSQ1a

LS3 BTS PSQ1a

LS3 BTS PSQ1a

LS3 BTS PSQ1a

LS3 BTS PSQ1b

LS3 BTS PSQ1b

LS3 BTS PSQ1b

LS3 BTS PSQ1b

LS3 BTS PSQ1b

LS3 BTS PSQ1b

LS3 BTS PSQ1b

LS3 BTS PSQ1b

LS3 BTS PSQ1b

LS3 BTS PSQ1b

LS3 BTS PSQ1b

LS3 BTS PSQ1b

LS3 BTS PSQ1b

LS3 BTS PSQ1b

LS3 BTS PSQ1b

LS3 BTS PSQ1b

LS3 BTS PSQ1b

LS3 BTS PSQ1b

LS3 BTS PSQ1b

LS3 BTS PSQ1b

LS3 BTS PSQ1a

LS3 BTS PSQ1a

LS3 BTS PSQ1a

LS3 BTS PSQ1a


FRIB Parameter List

FRIB-T10501-BL-000002-R016 Page 41 of 46


BDS BTS PSQ1b

BDS BTS PSQ1b

BDS BTS PSQ1b

BDS BTS PSQ1b

BDS BTS PSQ1b

BDS BTS PSQ1b

BDS BTS PSQ1a

BDS FFS PSQ1b

BDS FFS PSQ1b

BDS FFS PSQ1b

BDS FFS PSQ1b

S4 magnet two tiered power supply requirements

SystemSub-

system

Device Type

(specific)

FE ISRC1 PSS4b

FE ISRC1 PSS4b

FE ISRC2 PSS4b

FE ISRC2 PSS4b

FE LEBT PSS4a

FE LEBT PSS4a

FE LEBT PSS4a

FE LEBT PSS4a

FE LEBT PSS4a

FE LEBT PSS4b

FE LEBT PSS4b

Because of the varying power requirements for S4 magnets two different power supply types are used in the design.

The table below gives the types of power supplies used by subsystem in order of beamline position. Exact magnet

positions are given in the Lattice File [1].

S4 power supply types by beamline position:


FRIB Parameter List

FRIB-T10501-BL-000002-R016 Page 42 of 46


Alignment Systems Parameter List (Accelerator Systems)Date 9/16/2011

T.3.13.03


Global Coordinate System [19] See T30000-MDE-0002-0000

FRIB Driver Linac Element Placement Requirements (ASD) [20] See T31201-SP-000032

FRIB Fragment Separator Alignment Requirements (ESD) [12] See T40300-SP-000074

../../../../../../../../../../../../../../../../../../../../../../../../../../../../../dcc/Drawings/T30000-MDE-0002-0000.pdf

../../../../../../../../../../../../../../../../../../../../../../../../../../../../../dcc/Drawings/T30000-MDE-0002-0000.pdf






FRIB Parameter List

FRIB-T10501-BL-000002-R016 Page 43 of 46


APPENDIXReaccelerator 12 MeV Possible Upgrade (not part of the FRIB baseline)Date 2/29/2012

WBS Parameter Qty or Type Unit Comments

Length of ReA12 19.5 m

Q/A range 0.2-0.5

Cavity frequency 80.5 MHz

Synchronous phase -20 degrees

Transit Time Factor (max) 0.9

Uranium acceleration:

Injection energy for Q/A=0.25 3 MeV/u

Max. beam rigidity (Q/A=0.2, 2.4 MeV/u) 1.3 T.m

Max beam energy for Q/A=0.25 12 MeV/u

Max. beam rigidity (Q/A=0.2, 10 MeV/u) 2.3 T.m

Acceptance

Horizontal 0.8 pmm

Vertical 0.8 pmm

Longitudinal 14.6 p.keV/u.ns

Diagnostics

Length of diagnostic box 0.175 m

Number of slits 3

Number of Faraday cups 3

Max noise level of BCM (at 1 enA) 10 pA

Max noise level of BCM (at 50 epA) 3 pA

Leakage resistance 500 MW

Number of wire timing detectors 3

Time resolution 100 ps

Number of foil-Si detectors 3

Foil thickness 40 nm

Angle between detector and beam axis 30 degrees

Energy resolution 3 %

Cryomodules 4

l/4 , bopt 0.085 module 3

Cavities per module 8

Operating gradient 30 MV/m

Operating temperature 4.5 K

Length of module 5.99 m

Number of solenoids per module 3

SC solenoids with dipole

correctors; effective length0.2 m

Solenoid magnetic field (max) 9 T

Distance between cryo modules 0.45 m

Rebuncher cryo module 1

Cavities per module 1 l/4 , bopt 0.085 cavity type

Length of module 1.5 m

Number of solenoids per module 2

Vacuum in the RT sections < 1.E-9 Torr


FRIB Parameter List

FRIB-T10501-BL-000002-R016 Page 44 of 46


APPENDIXBeam Stopping Parameter List (not part of the FRIB baseline)Date 6/28/2011


Solid stopper Solid stopper with ion source and mass analyzer

Minimum beam rate capability 1.00E+09 ions/s

Max beam size at stopper position 1 cm

Ion Source

Max beam energy 60 keV

Max emittance @ 60 keV 30 p mm mrad

Mass analyzer

Resolving power 50


FRIB Parameter List

FRIB-T10501-BL-000002-R016 Page 45 of 46


APPENDIXDetector Systems Parameter List (not part of the FRIB baseline)Date 3/29/2010


Beam Transport

High energy beam transport line

maximum rigidity 5 Tm

minimum length 43 m Reach first vault of planned 12 MeV/u experimental area

High-acceptance Spectrometer

This spectrometer is a representative placeholder for a device

eventually needed for FRIB. Usergroups have formed to study

different options.

Space requirement

Length 15 m subject to change

Width 10 m subject to change


FRIB Parameter List

FRIB-T10501-BL-000002-R016 Page 46 of 46


APPENDIXReference DocumentsDate 4/30/2015

Document name DCC Link

1 FRIB Lattice File T10501-BL-000068

2 ASD Power Supply Requirements T30102-SP-000290

3 Vacuum Requirements (ASD) T31201-SP-000031

4 Diagnostics Requirements (ASD) T31201-SP-000021

5 RF Requirements (ASD) T31201-SP-000034

6 FRIB SRF Cavity Parameters Table T31202-SP-000067

7 Beam Dump Requirements (ASD) T31201-SP-000039

8 Project Requirements Document T10100-BL-000025

9 Fragment Separator Diagnostics Requirements T40302-SP-000077

10 Vacuum Requirements (ESD) T40307-SP-000072

11 Summary of FRIB Cryogenic Heat Loads T30200-TD-000244

12 Alignment Requirements (ESD) T40300-SP-000074

13 PPS requirements T10500-CM-000115

14 MPS Requirements T31201-SP-000040

15 Timing Requirements T31201-SP-000038

16 High Level Controls Requirements T31301-SP-000078

17 Optical Elements Requirements (ASD) T30102-SP-000289

18 FRIB Fragment Separator Magnet Requirements T40301-SP-000064

19 GLOBAL COORDINATE SYSTEM T30000-MDE-0002-0000

20 FRIB Driver Linac Element Placement Requirements (ASD) T31201-SP-000032

21 Charge Stripping Requirements T30705-SP-000080

22 FRIB Key Beam List U10600-BL-000036

23 FRIB site plan Portal Standard Graphics

24 FRIB Layout Portal Standard Graphics

25 ESD Power Supply Requirements T40303-SP-000288











https://portal.frib.msu.edu/dcc/pages/dcclink.aspx?WBS=T30200&Sub=TD&SN=000244








https://portal.frib.msu.edu/dcc/Drawings/T30000-MDE-0002-0000.pdf




https://portal.frib.msu.edu/bussupport/communications/Standard Graphics/Forms/AllItems.aspx

https://portal.frib.msu.edu/bussupport/communications/Standard Graphics/Forms/AllItems.aspx


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