T.Takahashi Hiroshima Optical Cavity R&D around KEK-ATF T.Takahashi Hiroshima Univ. Nov. 2008 LCWS08 at Chicago.

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T.Takahashi Hiroshima Optical Cavity R&D around KEK-ATF T.Takahashi Hiroshima Univ. Nov LCWS08 at Chicago

an idea Klemiz, Monig

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

4 Set up at KEK-ATF accuracy ~ 0.8  m electron beam Horizontal Vertical Optical cavity Cavity position is moved

L cav = n L cav = m L laser Laser freq = Ring RF Feedback to Achieve 3 Conditions mode locked laser pulse stacking cavity

6 The appearance of light resonance signal Reflected light Transmitted light the optical cavity is on resonant Transmitted light Mirror reflectivity : 99.6% Mode locked laser (Photo diode) PD time (ms) Continued to change the length of the external cavity. 1ms 0.7nm ~ /enhacement/ 

Phase Detector Piezo PD Ref-light Stacking Cavity Laser PID Ring RF keep resonance sync. to Acc. laser light pulses offset (Sakaue) Cross-feedback=Closed loop

R. Cizeron e - beam laser beam 4-mirror cavity 2-mirror cavity Spot size = 30 um Enhance = 1000 Spot size = 10 um Enhance = mirror-cav to 4-mirror-cav. difficult to achieve both high enhancement and small spot

α 2D configuration 3D configuration Focal points for horizontal and vertical are not same

R&D of 4 mirrors cavity started

Two resonat peaks due to geometrical phase RightLeftLinear

Summary and prospects photon generation by Laser pulse stacking cavity / accelerator has been demonstrated both for –Polarized electron source (PosiPol) –hard x ray generation (LUCX) A project for x ray source has started All projects going to 4 mirror ring cavity –Technique with Ring cavity and e-beam will be accumulated in next 3-4year Specific study is for 100 m long cavity is necessary –supporting 1m scale mirrors –adaptive optics to maintain phase front –Feed back experiment to cavity design 3 Dimensional cavity polarization T.Takahashi Hiroshima

Optical Cavity R&D around ATF O(10MeV)  s for Compton Based Polarized Positron source. Hard X ray (~30keV) sources –LUCX project New 5 year project –Compact X ray source w/ SRF electron accelerator and pulse stacking cavity. T.Takahashi Hiroshima Accumulating technique and experiences w/ cavity and accelerators. ring cavities are being planned as next step

data summary bunch /train current [mA] Stacked Laser power[W]  s /crossing exectation normarized  s/A/W Normalized  yield seems to decrease as # bunches/train goes up Bunch (size, timing) fluctuation in the ATF suspected