+ All Categories
Home > Documents > BERLinPro An ERL Demonstration facility at the HELMHOLTZ ZENTRUM BERLIN.

BERLinPro An ERL Demonstration facility at the HELMHOLTZ ZENTRUM BERLIN.

Date post: 13-Dec-2015
Category:
Upload: derek-bruce
View: 228 times
Download: 3 times
Share this document with a friend
Popular Tags:
23
BERLinPro An ERL Demonstration facility at the HELMHOLTZ ZENTRUM BERLIN
Transcript

BERLinPro

An ERL Demonstration facility at theHELMHOLTZ ZENTRUM BERLIN

March, 1st, 2010, Bettina Kuske, FLS 2010, SLAC, USA

BERLinPro: An ERL demonstration facility at the HELMHOLTZ ZENTRUM BERLIN

2

Main components:

100MeV, 100mA beam Small emittance, rel. short bunches High current: to address needs of storage ring users Show energy recoveryExplore limits of ERL (multiturn, injection energy)Show different operational modes: high current (100mA, 2ps), short pulses (10mA, 100fs), ??, => superiority of the ERL concept to storage rings

BERLinPro: ERL demonstration facility to prepare the ground for a few GeV ERL @ Berlin-Adlershof

Goal:

•SC-RF gun•Booster module – Cornell development with minor modifications•Merger: C-chicane, 4 rectangular dipoles•Linac: based on Tesla technology, modified for high current•Return arc: TBA•Second loop option

March, 1st, 2010, Bettina Kuske, FLS 2010, SLAC, USA

BERLinPro: An ERL demonstration facility at the HELMHOLTZ ZENTRUM BERLIN

3

Finances and time table :

• ‚go ahead‘ for gun development• R&D money for gun development secured• Further approval process for entire budget

2010 beam from 1.6 cell gun cavity in HoBiCaTConceptual design

2011Technical layout (TDR)

5 years after approval: first recirculated electrons

March, 1st, 2010, Bettina Kuske, FLS 2010, SLAC, USA

BERLinPro: An ERL demonstration facility at the HELMHOLTZ ZENTRUM BERLIN

4

GUN DEVELOPMENT

SRF Gun

Return Arc

Merger SectionMain Linac SRF Module

Spent Beam

Beam Dump

SRF Booster

1.5 MeV

5-10 MeV

100 MeV

Beam Manipulation Undulator tests

March, 1st, 2010, Bettina Kuske, FLS 2010, SLAC, USA

BERLinPro: An ERL demonstration facility at the HELMHOLTZ ZENTRUM BERLIN

5

BERLinPro gun: Staged approach

A high brightness source which can deliver high average current and short pulses.

Stage 1-Beam Dynamics: Produce beam with cold gun in existing HoBiCaT cryomodule.

Nb cavity with Pb-coated cathode (J. Sekutowicz & Co), UV laser (MBI), sc solenoid and beam diagnostics.

Stage 2-Cathode integration: Extend HoBiCaT bunker, new cryomodule, cathode preparation infrastructure. Produce 1 to 10 mA with CsK2Sb cathode, green laser (MBI).

In parallel, test gun cavities and new RF coupler (>100kW) in HoBiCaT.

Stage 3-High current operation: Build SRF gun for BERLinPro (high rep. rate) F

rom

J.

Sekuto

wic

z, P

roc.

of

PA

C0

9

Courtesy of Thorsten Kamps

March, 1st, 2010, Bettina Kuske, FLS 2010, SLAC, USA

BERLinPro: An ERL demonstration facility at the HELMHOLTZ ZENTRUM BERLIN

6

Stage 1 setup in HoBiCaT

1.6 cell cavity, sc-solenoid,Helium supply

Stage 1 diagnostic beam line

View screens, stripline, current monitor, emittance measurement, energy measurement

March, 1st, 2010, Bettina Kuske, FLS 2010, SLAC, USA

BERLinPro: An ERL demonstration facility at the HELMHOLTZ ZENTRUM BERLIN

7

HoBiCat preparations:

March, 1st, 2010, Bettina Kuske, FLS 2010, SLAC, USA

BERLinPro: An ERL demonstration facility at the HELMHOLTZ ZENTRUM BERLIN

8

MERGER DESIGN CONSIDERATIONS

SRF Gun

Return Arc

Merger SectionMain Linac SRF Module

Spent Beam

Beam Dump

SRF Booster

1.5 MeV

5-10 MeV

100 MeV

Beam Manipulation Undulator tests

March, 1st, 2010, Bettina Kuske, FLS 2010, SLAC, USA

BERLinPro: An ERL demonstration facility at the HELMHOLTZ ZENTRUM BERLIN

9

Zigzag chicane: (Brookhaven)

Space charge forces: compatible with emittance compensation scheme

Higher order dispersion: intrinsically cancelled by C-chicane with rectangular magnets

• equal focussing in both planes• 2. order dispersion not 0• Small trajectory displacement• Fixed relation D1/D2• „Geometrically challenging“(vertical construction in Brookhaven)

• Easier to incorporate in machine• Flexible drift lengths• Offset adjustable by drift length• Vertical focussing

C-chicane:

March, 1st, 2010, Bettina Kuske, FLS 2010, SLAC, USA

BERLinPro: An ERL demonstration facility at the HELMHOLTZ ZENTRUM BERLIN

10

ASTRA: Emittance for Zigzag / C- chicane for increasing bunch charge and different energy spread (correlated)

C-chicane

Zigzag

Gaussian bunch: x,y = 1.0 mrad x,y = 1.0 mm z = 1.0 mm x,y = 20.0 m x,y = 0

March, 1st, 2010, Bettina Kuske, FLS 2010, SLAC, USA

BERLinPro: An ERL demonstration facility at the HELMHOLTZ ZENTRUM BERLIN

11

Bunch lengthening in merger due to energy spread / space charge

Effect is reduced when goingto 10 MeV injection energy.

March, 1st, 2010, Bettina Kuske, FLS 2010, SLAC, USA

BERLinPro: An ERL demonstration facility at the HELMHOLTZ ZENTRUM BERLIN

12

Emittance vrs. bunch length

Gaussian bunch:E = 10 MeV x,y = 1.0 mrad x,y = 1.0 mm x,y = 20.0 m x,y = 0E = 20keV

Emittance depends strongly on bunch length:

Charge z Compression77pC 6ps 3 or more10pC 1ps 10 or more77pC

10pC

March, 1st, 2010, Bettina Kuske, FLS 2010, SLAC, USA

BERLinPro: An ERL demonstration facility at the HELMHOLTZ ZENTRUM BERLIN

13

Lambertson magnet: Good idea??

Last merger dipole deflects high energy beam by up to 4°

=> extra chicane necessary

Lambertson: High energy beam travels infield free region, injected low energy beam runs parallel

Lambertson would reduce 4° to less than 0.14°, which is rather an orbit correction

By Lars-Johan Lindgren, MAX-lab

March, 1st, 2010, Bettina Kuske, FLS 2010, SLAC, USA

BERLinPro: An ERL demonstration facility at the HELMHOLTZ ZENTRUM BERLIN

14

L1

d

d \ L2 0.4m 0.8m 1.2m

10mm 1.4 0.7 0.5

20mm 2.9 1.4 0.7

30mm 4.3 2.1 1.4

[°] as a function of d, L1

0.025rad = 1.432deg.

High energy beam deflected by 1/10: 0.14° mean 2.5cm offset after 10m linacSteering for HE beam is necessaryPlace for HE optical elements before Lambertson

SteererLast merger dipoleLambertson?

March, 1st, 2010, Bettina Kuske, FLS 2010, SLAC, USA

BERLinPro: An ERL demonstration facility at the HELMHOLTZ ZENTRUM BERLIN

15

Linac:

SRF Gun

Return Arc

Merger SectionMain Linac SRF Module

Spent Beam

Beam Dump

SRF Booster

1.5 MeV

5-10 MeV

100 MeV

Beam Manipulation Undulator tests

March, 1st, 2010, Bettina Kuske, FLS 2010, SLAC, USA

BERLinPro: An ERL demonstration facility at the HELMHOLTZ ZENTRUM BERLIN

16

100 MeV Linac:

•1.3 GHz•Start with multicell TESLA and adapt this for CW and high current •Single cryomodule with 6-7 cavities•7 cells/cavity (?)•Application „Verbundforschungsantrag“: federal funding for a collaboration

with Univ. Rostock and Dortmund for the calculation of HOM

Options for HOMs: Ferrite loads, waveguide dampers•HoBiCaT test

March, 1st, 2010, Bettina Kuske, FLS 2010, SLAC, USA

BERLinPro: An ERL demonstration facility at the HELMHOLTZ ZENTRUM BERLIN

17

RECIRCULATOR - ARC

SRF Gun

Return Arc

Merger SectionMain Linac SRF Module

Spent Beam

Beam Dump

SRF Booster

1.5 MeV

5-10 MeV

100 MeV

Beam Manipulation Undulator tests

March, 1st, 2010, Bettina Kuske, FLS 2010, SLAC, USA

BERLinPro: An ERL demonstration facility at the HELMHOLTZ ZENTRUM BERLIN

18

Path length management:

•Short bunches require pathlength adjustment•Second loop option:

100MeV: 1. turn: L=(n+1/2) rf

200MeV: 1. turn: L= n rf (rf/2=12cm)•Variable injection energy alters path length in merger & splitter for HE beam

20o bend @ 5-20MeV = 1-4o @ 100MeV => 0.5cm

t

EE = E0 cos (t +0)

X = – 2 0

=

head with higher Egives compression with “normal” arc R56

chirp at decelerationdoubles inacceptableenergy spread

L = 2 rf =2-3cm deg.

Courtesy of Michael Abo-Bakr

March, 1st, 2010, Bettina Kuske, FLS 2010, SLAC, USA

BERLinPro: An ERL demonstration facility at the HELMHOLTZ ZENTRUM BERLIN

19

3 Approaches to pathlength adjustment:1 - Brookhaven: Build arc on sledge, mechanical adjustment

very precise expensive slow

2 - C-chicanelong @ 100MeV: 2-3mCSR – bunches are short

3 - Incorporate into the arc

1

0

0

1

K

SB

X0

X1

D0

D

1,3[°] 2[°] K[°] xmax/cm

60 60 4.8 6.3

45 90 2.9 4.5

Angle and offset for 6cm additional pathlength

Courtesy of Michael Abo-Bakr

March, 1st, 2010, Bettina Kuske, FLS 2010, SLAC, USA

BERLinPro: An ERL demonstration facility at the HELMHOLTZ ZENTRUM BERLIN

20

Radiation safety requirements:

Different ‚league‘ than storage ringsDrive costs =>drive beamloss requirements Permissable beamloss:<1e-5?

=> Too little space for shielding above ground => Consider construction underground

reduced shielding, vibrations and temperature fluctuations at comparable costs

March, 1st, 2010, Bettina Kuske, FLS 2010, SLAC, USA

BERLinPro: An ERL demonstration facility at the HELMHOLTZ ZENTRUM BERLIN

21

BESSY IIBESSY II

Cryogenic plant

March, 1st, 2010, Bettina Kuske, FLS 2010, SLAC, USA

BERLinPro: An ERL demonstration facility at the HELMHOLTZ ZENTRUM BERLIN

22

March, 1st, 2010, Bettina Kuske, FLS 2010, SLAC, USA

BERLinPro: An ERL demonstration facility at the HELMHOLTZ ZENTRUM BERLIN

23

Building: All dimensions preliminary

55m 6.4m

6.0m

15m

Storage Ring Hall


Recommended