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Compton Experiment at ATF DR 2009 Summary and Plan ATF2 Project Meeting 15-Dec-2009 T. Omori (KEK) for collaborators.

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Presentation on theme: "Compton Experiment at ATF DR 2009 Summary and Plan ATF2 Project Meeting 15-Dec-2009 T. Omori (KEK) for collaborators."— Presentation transcript:

1 Compton Experiment at ATF DR 2009 Summary and Plan ATF2 Project Meeting 15-Dec-2009 T. Omori (KEK) for collaborators

2 Optical Cavity for Laser-Compton 325 MHz Lcav Higher laser power L cav = n  L<nm laser for pulse stacking ->more enhancement the more precision Laser should be focused for high power density Efficient laser-Compton scattering  T < ps Accommodate laser cavity in the accelerator

3 Two Prototype Cavities 4-mirror cavities w/LAL2-mirror cavity high enhancement small spot size complicated control moderate enhancement moderate spot size simple control (Hiroshima / Weseda / Kyoto / IHEP / KEK) demonstration of  ray gen. accum. exp. w/ cavity and acc. intense  ray generation

4 2 MIRROR CAVITY STATUS

5 Experimental R/D in ATF. Make a fist prototype 2-mirror cavity Put it in ATF ring Hiroshima-Waseda-Kyoto-IHEP-KEK L cav = 420 mm

6 Laser Power enhancement 260 Before Summer 2009 I DR = 11 mA

7 data summary Normalized  yield seems to decrease as # bunches/train goes up Bunch (size, timing) fluctuation in the ATF suspected bunch /train current [mA] Stacked Laser power[W]  s /train expectationnormarized  s/A/W 12.2 54.7 108.5 1511 Before Summer 2009

8 Summer 2009 ► One of the Mirror was replaced with the higher reflectivity one – 99.6% -> 99.9% – power enhancement ● 260 -> ~630 – more precise controll required (~0.1nm) ► Status of the cavity w/ new mirror – Finess ~2000 with feedback on before vacuum on – now in preparation for beam – hope to get 3 times more photons by the end of the year 99.9% 99.6%

9 November 2009 Laser Power enhancement 630 Result 1 bunch/train I DR = 2.1 mA We detected 11 gammas/train preliminary

10 4 MIRROR CAVITY STATUS March 2009 August 2009

11 α 2D configuration 3D configuration to2D 4mirror cavity has astigmatism. to position in the cavity to spot size go to 3D config. to avoid astgmatism to spot size to position in the cavity

12 R&D of 4 mirrors cavity started at KEK (Reported TILC09) Honda L ring = n (n+1)

13 prototype 4 mirror cavity Constructed

14 tuning mechanizm HV Power Piezo spring Objective: to establish method of: mirror alignment, control cavity length  feed back to the beam compatible cavity

15 Prototype cavity on the optical table

16 status of initial tests circumference of the cavity intensity of transmitted light fundamental resonant mode resonance of the cavity with injecting laser observed

17 two peaks two separated resonant peaks each corresponds to left or right handed polarization 3D cavity only resonates with circular polarization due to geometric phase Useful to: generate circularly pol.  s fast switching

18 Flat mirror Spherical mirror 8°8° Central support Spherical mirror R. Cizeron LAL 30/01/2008 Staus of the LAL cavity French colleagues visited KEK in July. discussed detail of the installation procedure setting up at the ATF beam line working to install the cavity in summer 2010

19 Summary ► 2 mirror cavity to demonstrate photon generation and to accumulate experience w/ beams – Before summer 2009 ● enhancement of 260, 27 gammas / crossing – High reflection mirror (summer 2009) (99.6%, 99.6%) ->(99.9%, 99.9%) ● beam with enhancement ~630 ► 4 mirror ring cavity for higher enhancement and small spot size – Basic test on optical table – First prototype at KEK and being tested – Installation of LAL cavity will be summer 2010

20 Beam Time Request in 2010-2011 ► Jan.-Jun. 2010 – 1 shift/week (in average) with the current two mirror cavity (99.6%, 99.9%) ► Summer 2010 – Install LAL 4-mirror cavity. – Upgrade the two mirror cavity --> (99.9%, 99.9%) ► Oct. 2010-Jun. 2011 – 1 shift/week (in average) with upgraded 2-mirror cavity. – 1 shift/week (in average) with LAL 4-mirror cavity. ► Summer 2011 and later – Not decided yet

21 Urakawa Backup Slides

22 Equivalent Optics of the 4-mirror Cavity 4-mirror ring cavity Very Large Focal Point tolerance : 4-mirror = 100 x 2-mirror

23 α 2D configuration 3D configuration

24 concentric confocal Tolerance of 2-mirror cavity Concentric Configuration and Confocal Configuration

25 concentric confocal 4-mirror cavity2-mirror cavity L R1=R2=L/2 R1=R2=L L

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