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ATF1/2 laser-wires Stewart T. Boogert on behalf of UK Extraction line laserwire collaboration A. Aryshev, G. Blair, S. Boogert, A. Bosco, L. Corner, L.

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Presentation on theme: "ATF1/2 laser-wires Stewart T. Boogert on behalf of UK Extraction line laserwire collaboration A. Aryshev, G. Blair, S. Boogert, A. Bosco, L. Corner, L."— Presentation transcript:

1 ATF1/2 laser-wires Stewart T. Boogert on behalf of UK Extraction line laserwire collaboration A. Aryshev, G. Blair, S. Boogert, A. Bosco, L. Corner, L. Deacon, N. Delerue, D. Howell, P. Karataev, M. Newman, R. Walczak JAI @ Oxford and JAI @ RHUL

2 Extraction line group aims Develop extraction line ILC laserwire prototype Started with simple 10 micron laser-wire Infrastructure, laser, beam-optics, data aquisition Goal before ATF2, 1 micron laser-wire Require custom optics Aberration corrected optics High power laser system Mode locked, high power ~50 MW Excellent transverse mode quality

3 ATF installation Current installation in ATF In extraction bending system Three types of detector, Cerenkov (air, aerogel) Calorimeter

4 Laser system Mode locked Time Bandwith seed laser, 357 MHz 1.5 nJ, 5 ps pulse Regenerative amplifier 12 mJ, 150 ps pulse Linear two stage amplifier 250 mJ (1.5 GW)

5 ATF configuration Special optics to generate 20x1 micron wait at laserwire location (confirmed with wire scanner) Previous studies not sensitive to 20x1 micron focus New 10x1 laser- wire will resolve problems with ATF LW optics

6 Current laser-wire system Commercial plano- convex lens Motorised translation system Scanning by standard mirror mount Motorised angle control

7 Current laser-wire system

8 Laser-wire results 2006/7 Example laser- wire scan Clear non- gaussian component Coma Spherical aberrations

9 Collision tuning Once collisions are found Vary phase of mode lock laser, 357 MHz Signal width ~160 ps, consistent with knowledge of laser Tune focus horizontal position

10 Final results Finally quad scan Vary beam size at LW interaction point by varying strength of QD4X Clear beam size variation measurement between ~60 and 8 micron Lower limit from laser and spherical aberrations Upper limit signal to noise

11 Modified F/2 laserwire Two element optic (1 spheric and 1 aspheric) Vacuum window (optical flat) Lens rigidly fixed to chamber Chamber can move in 2 axes Focus position fixed with respect to chamber

12 F/2 lens results Lens measurement s in the lab in Oxford Rotating slit/knife edge profiler

13 Overlap strategy Electron beam v Input laser beam v Final focus lens Electron beam Collimation lens Scanning mirrorLaser beam Laser detectors

14 Laser quality 1064 nm profile532 nm profile

15 Modified laser results Laser was designed for maximum output power Flat top pulse, maximizes pulse energy output Modified light transport in laser to amplify TEM 00 Beam in tunnel is improved but still far

16 F/2 Alignment Final focus lens Collimation lens Scanning mirror Laser beam Laser detectors

17 ATF2 plan Progress toward ILC specification laser-wire system Operational improvements laser stability Finding overlap efficiently Physics Laser transverse mode Lens aberrations and coma Move existing laser-wire system over to new ATF2 location and laser hut installation Optics should not be a problem (dispersion free region in ATF2)

18 ATF2 layout ATF2 line Laser hut Possible LW-IPs Existing dump Light transport

19 ATF2 layout

20 ATF2 study plan Continue study of laser-wire Implementation (DAQ, operation, etc) Study of various systematic effects (see paper I. Agapov at al.) Beam jitter (laser and electron beams) Optics calibration Impact of non-perfect lens and laser ILC performance requirements Fast laser scanners Laser systems Light transport and control

21 Laserwire/Optical Diffraction Target manipulation excellent for ODR/OTR studies ODR can measure down to 20 micro beam sizes Plan to integrate laserwire and ODR diagnostics together General ILC beam diagnostic Wakefield kicks etc See talk of P. Karataev in ATF TB meeting

22 Summary Good progress with laser-wire system Hopefully have one micron collisions by end of ATF1 operation Move existing laser-wire system to location at end of the extraction system Continue development of transmissive optics Test developments in scanning technology (electro-optics) Laser systems Systematics studies Develop multiple axis system for ATF2 2-3 axis (vertical, horizontal, small angle) Roll angles (alignment with respect to quads etc)

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