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Compact Linear Accelerator for Research and Applications

Coordinates: 53°20′35″N 2°38′26″W / 53.342927°N 2.640675°W / 53.342927; -2.640675
From Wikipedia, the free encyclopedia
Compact Linear Accelerator for Research and Applications (CLARA)
Phase 1 of the CLARA accelerator situated at Daresbury Laboratory
General properties
Accelerator typeLinear accelerator
Beam typeElectrons
Beam properties
Maximum energy250 MeV
Maximum current400 A
Maximum brightness>1x10¹² W/m²/sr[1]
Physical properties
Length90 m
LocationCheshire, United Kingdom
Coordinates53°20′35″N 2°38′26″W / 53.342927°N 2.640675°W / 53.342927; -2.640675
InstitutionDaresbury Laboratory
Dates of operation2016 - present

The Compact Linear Accelerator for Research and Applications (CLARA) is a scientific user facility at Daresbury Laboratory. It is an electron linear accelerator (linac) currently under construction in the Electron Hall.

CLARA is made up of three phases; Phase 1 is operational and has achieved energies of 50 MeV with bunch charges >250 pC. Phase 2 is being constructed off-line and consists of three linacs delivering a total energy of up to 250 MeV, 250 pC beam charge at 100 Hz repetition rate. Phase 2 also consists of the Full Energy Beam Exploitation (FEBE) arc, a beamline which looks at plasma-wakefield acceleration, boosting the beam to energies of around 2 GeV for high energy experimentation.[2] Phase 3 is future expansion for X-ray Free Electron Laser (X-FEL) construction. This 100 nm X-FEL is linked to the UK XFEL project.[3]

History

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After beginning its decommission process in 2008, the Synchrotron Radiation Source (SRS) left space for construction of a new accelerator in the Electron Hall and Outer Hall. The booster ring bunker was taken down and replaced by a small electron beam facility and the linac bunker was repurposed into a linac test facility (LTF).

Several SRS end stations and beamlines were previously situated in the Electron Hall and in late 2011, construction began on the Electron Beam Test Facility (EBTF). The bunker was constructed between mid 2011 and mid 2012, and the beamline and accelerator components were installed in late 2012. By 2013, the EBTF became the Versatile Electron Linear Accelerator (VELA) and a conceptual design report for CLARA was released in July 2013.[4] VELA was commissioned in 2013 and provided high-quality electron beams for several industrial and academic user groups.[5]

In 2015 it was announced that CLARA was to be installed as part of the VELA beamline, sharing the same RF and laser infrastructure.

In 2016 work began on CLARA, with the gun end situated where the SRS booster-to-storage transfer line occupied, for the rest of the accelerator to span the length of the hall. Phase 1 was commissioned in 2017 and provided, along with VELA, high energy electron beams for scientific research. CLARA's first beam was achieved on 16th November 2017 with an energy of 48 MeV/c.[6]

Properties

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CLARA is 90 m long, consists of 4 linacs, and the electron momentum varies across its length. Linac 1 is ~35 MeV/c, linac 2 is ~125 MeV/c, linac 3 is ~200 MeV/c, the 4th harmonic cavity is ~180 MeV/c and linac 4 is ~250 MeV/c. Each linac has its own high power klystron and modulator situated in rooms directly above.

CLARA has several operating modes;[7]

CLARA operating modes
Mode
Parameter Flat – Seeded

Harmonic Generation

Ultrashort –

Single Spike SASE

Short – High-

Brightness SASE

Long –

Mode Locked

Energy 240 MeV 240 MeV 150 - 240 MeV 150 - 240 MeV
Pulse Duration 250 fs flat region 50 - 35 fs FWHM 585 fs FWHM 1.875 ps FWHM
Charge 250 pC 25 - 50 pC 250 pC 250 pC
Peak Current 400 A 500 - 1500 A 400 A 125 A
Norm Emittance

(mm-mrad)

0.5 (Target)

1.0 (Max)

1.0 (Target)

1.5 (Max)

0.5 (Target)

1.0 (Max)

0.5 (Target)

0.8 (Max)

RMS Energy

Spread (keV)

25 (Target)

100 (Max)

100 (Target)

150 (Max)

25 (Target)

120 (Max)

25 (Target)

75 (Max)

References

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  1. ^ "Optical Beam Quality Analysis Of The CLARA Test Facility Using Second Moment Analysis". 38th International Free Electron Laser Conference. 2017. ISBN 978-3-95450-179-3.
  2. ^ Angal-Kalinin, D.; Bainbridge, A. R.; Jones, J. K.; Pacey, T. H.; Saveliev, Y. M.; Snedden, E. W. (2022). "The Design Of The Full Energy Beam Exploitation (FEBE) Beamline On CLARA" (PDF). 31st International Linear Accelerator Conference. JACoW Publishing. ISBN 978-3-95450-215-8. ISSN 2226-0366.
  3. ^ "ASTEC UK XFEL". www.astec.stfc.ac.uk. Retrieved 2024-11-19.
  4. ^ Clarke, J. A.; et al. (July 2013). "CLARA Conceptual Design Report" (PDF). Science and Technology Facilities Council. 9 (5). Accelerator Science and Technology Centre (ASTeC): T05001. Bibcode:2014JInst...9.5001C. doi:10.1088/1748-0221/9/05/T05001.
  5. ^ "ASTEC VELA". www.astec.stfc.ac.uk. Retrieved 2024-11-18.
  6. ^ "ASTEC First Accelerated Beam Through Linac 1". www.astec.stfc.ac.uk. Retrieved 2024-11-19.
  7. ^ Clarke, Jim (9 March 2017). "The CLARA Facility" (PDF). STFC Daresbury Laboratory & the Cockcroft Institute: 11 – via CERN.
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