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T.Takahashi Hiroshima Photon Collider testbed at ATF2 ~a possible plan~ T.Takahashi Hiroshima Univ. May 31 2006 ATF2 meeting.

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Presentation on theme: "T.Takahashi Hiroshima Photon Collider testbed at ATF2 ~a possible plan~ T.Takahashi Hiroshima Univ. May 31 2006 ATF2 meeting."— Presentation transcript:

1 T.Takahashi Hiroshima Photon Collider testbed at ATF2 ~a possible plan~ T.Takahashi Hiroshima Univ. May 31 2006 ATF2 meeting

2 T.Takahashi Hiroshima Lasers for Photon Colliders have to meet –5J/pulse –337ns separaton 3000bunches/train –5Hz simple estimate of cost for the laser –to pump 5J ×3000 pulses in 1ms $5/w

3 T.Takahashi Hiroshima current idea Gronberg

4 Nanobeams 2005 – Kyoto – October 17-21, 2005J. Gronberg - LLNL The MERCURY laser already has more average power than we need Goal: 100 J 10 Hz 10% Efficiency 2-10 ns < 5X Diffraction limit > 10 8 shots Output Diode arrays 8 diode arrays 6624 diodes total 730 kW peak power Front-end 300 mJ Gas-cooled amplifier heads Helium gas flow at 0.1 Mach Cavity Laser: 764 W average power 119 kW peak power Gronberg requirement for Cavity

5 T.Takahashi Hiroshima Pulse Stacking Cavity K. Moeing need extensive R&D power enhancement focus down to 5 mm w/ 100 long ring cavity is challenging

6 T.Takahashi Hiroshima tolerance is very small R have to be exactly L/2 resonator is stable here Omori

7 T.Takahashi Hiroshima Step by step plan 1.Cavities for Compton based pol. e+ projects –Fabry-Perot type spherical mirrorFabry-Perot type spherical mirror –Fabry-Perot type off-axis parabolic mirrorFabry-Perot type off-axis parabolic mirror 2.Extension of pol. e+ cavity –×10 scale of Pol e+ –ring cavity for 154ns spacing 3.Cavity w/ high power laser at ATF2-IP –not possible at ATF-DR as high power laser is destructive target 4.100m size will be tested w/o e- beam 42cm 4.62m (1/10 of bunch spacing) ATF-DR w/ low power lasers

8 posipol1 Plan: Exprmntl R/D at ATF. Make a fist prototype single cavity Put it in ATF ring Hiroshima-LAL-IPN-CERN-Kyoto-Waseda-KEK L cav = 420 mm Omor i

9 posipol2 Laser Pulse Stacking Cavity Input laser (YAGlaser) Energy 0.75 mJ / bunch 3.077 nsec bunch spacing train length = 50  sec Cavity Enhancement Factor =1000 Laser pulse in cavity 750 mJ/bunch single bunch in a cavity Fabry-perot Resonator Omori

10 T.Takahashi Hiroshima Ring cavity at ATF-DR -after we learn a lot from PosiPol cavities- 1m 50mr circumference 4.62m (15.4ns) ー >64.9MHz For 154ns spacing: 1/10 scale (15.4ns) Lasers 10W mode locked,,,154nJ/pulse ->15.4  J/pulse w/ 100 pulse stacking 2400  /xing very similar to PosiPol experiment A laser pulse hits once in 10 turns

11 T.Takahashi Hiroshima Ring cavity+High power at ATF2-IP 1m 50mr 64.9MHz ×50mJ=3.245kW Cavity can be the same as ATF- DR but the laser is not Average power = 50mJ×20×repetition = as low as 1W (or less) we want 50mJ/pulse for the laser (5J/pulse in cavity) Continuous pumping (64.9MHz)of the cavity is not wise: just for 20 bunches (for a train) Peak laser pumping power = need mini-Mercury amplifier?

12 T.Takahashi Hiroshima Possible Plan at ATF2-IP 50mr 1m same  det. w/ Shintake mon. Shintake Mon. mode locked laser 10W 64.9MHz Out side beam line mini-Mercury for 50mJ 20bunches Modification of Mercury to multi-shot system planned at LLNL

13 T.Takahashi Hiroshima IP Area Concrete 1m or 2m Concrete 1m or 2m Concrete 1m Cables/ Water 1.5 m2.0 m Power Supplies ? 2.0m is preferable

14 T.Takahashi Hiroshima ATF2-Layout Lasers

15 T.Takahashi Hiroshima Summary Starting after pol e- experiment at ATF-DR –×10 scale cavity,,, O(\20M?) –same level laser,,, ~\20M ATF2-IP –same cavity –same laser –install mini-Mercury O($M? , M?) 2008 ~2009? 2009 2010?

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