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Status of R&D of Optical Cvities at KEK-ATF ►Introduction ►Status of the cavity R&D ►Out Look...
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Transcript of Status of R&D of Optical Cvities at KEK-ATF ►Introduction ►Status of the cavity R&D ►Out Look...
![Page 1: Status of R&D of Optical Cvities at KEK-ATF ►Introduction ►Status of the cavity R&D ►Out Look KEK, Hiroshima University LAL (Orsay) in Collaboration withCELIA.](https://reader035.fdocuments.net/reader035/viewer/2022081516/56649e485503460f94b3ba04/html5/thumbnails/1.jpg)
Status of R&D of Optical Cvities at KEK-ATF
►Introduction►Status of the cavity R&D ►Out Look
KEK, Hiroshima University LAL (Orsay) in Collaboration withCELIA (Laser lab., Bordeaux) and LMA ( coatings Lab., Lyon)
Tohru TakahashiHiroshima University
for
28 May 2013ECFA2013 DESY
![Page 2: Status of R&D of Optical Cvities at KEK-ATF ►Introduction ►Status of the cavity R&D ►Out Look KEK, Hiroshima University LAL (Orsay) in Collaboration withCELIA.](https://reader035.fdocuments.net/reader035/viewer/2022081516/56649e485503460f94b3ba04/html5/thumbnails/2.jpg)
an idea Klemiz, Monig
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Optical cavity projects at KEK
• 3D4M cavity for gamma ray at ATF
• 2D2M cavity X-ray. LUCX
• 2D4M cavity for X-ray with two cylindrical lenses
• Compact 2D4M cavity for fast laser wire scanner
3
![Page 4: Status of R&D of Optical Cvities at KEK-ATF ►Introduction ►Status of the cavity R&D ►Out Look KEK, Hiroshima University LAL (Orsay) in Collaboration withCELIA.](https://reader035.fdocuments.net/reader035/viewer/2022081516/56649e485503460f94b3ba04/html5/thumbnails/4.jpg)
Quantum Beam Technology Program (QBTP)Development for Next Generation Compact High Brightness X-raySource using Super Conducting RF Acceleration Technique
First Compton X ray in March 2013
SCRF
![Page 5: Status of R&D of Optical Cvities at KEK-ATF ►Introduction ►Status of the cavity R&D ►Out Look KEK, Hiroshima University LAL (Orsay) in Collaboration withCELIA.](https://reader035.fdocuments.net/reader035/viewer/2022081516/56649e485503460f94b3ba04/html5/thumbnails/5.jpg)
Compton at KEK ATF• Polarized e+ by laser Compton Scheme
Ee~1GeV for 10MeV gammas
controllability of polarization
Toward the positron sources ー > increase intensity of γ rays
Omori
Proof of principleM.Fukuda et al., Phys. Rev. Letts. 91, 16480(2003)T.Omori et al., Phys. Rev. Letts. 96, 114801(2006)
![Page 6: Status of R&D of Optical Cvities at KEK-ATF ►Introduction ►Status of the cavity R&D ►Out Look KEK, Hiroshima University LAL (Orsay) in Collaboration withCELIA.](https://reader035.fdocuments.net/reader035/viewer/2022081516/56649e485503460f94b3ba04/html5/thumbnails/6.jpg)
29th Mar 2013
detectorγ
Laser cavity
ATF parameter1.3GeV1×1010 electron/bunchUp to 10 bunch/train2.16×106 turn/s
Setup at the KEK-ATF
![Page 7: Status of R&D of Optical Cvities at KEK-ATF ►Introduction ►Status of the cavity R&D ►Out Look KEK, Hiroshima University LAL (Orsay) in Collaboration withCELIA.](https://reader035.fdocuments.net/reader035/viewer/2022081516/56649e485503460f94b3ba04/html5/thumbnails/7.jpg)
The Optical Cavity
IP
Plane Mirror
Concave Mirror
Plane Mirror
Concave Mirror
Main ParametersCircumference:1.68mFinesse:4040(Measured)Power Enhansement:1230
![Page 8: Status of R&D of Optical Cvities at KEK-ATF ►Introduction ►Status of the cavity R&D ►Out Look KEK, Hiroshima University LAL (Orsay) in Collaboration withCELIA.](https://reader035.fdocuments.net/reader035/viewer/2022081516/56649e485503460f94b3ba04/html5/thumbnails/8.jpg)
3 Dimensional 4 Mirror Cavity• Resonates only for circular polarization
– geometric phase due to twisted pass– cavity only resonates with circular polarization– usable for pol. switching
circumference of the cavity
left handed right handed
transmitted light
![Page 9: Status of R&D of Optical Cvities at KEK-ATF ►Introduction ►Status of the cavity R&D ►Out Look KEK, Hiroshima University LAL (Orsay) in Collaboration withCELIA.](https://reader035.fdocuments.net/reader035/viewer/2022081516/56649e485503460f94b3ba04/html5/thumbnails/9.jpg)
4 mirror cavities are at the ATF KEK-Hiroshimainstalled 2011
LAL-Orsayinstalled summer 2010
relatively simple control systememploys new feed back scheme
sophisticated control digital PDH feedback
![Page 10: Status of R&D of Optical Cvities at KEK-ATF ►Introduction ►Status of the cavity R&D ►Out Look KEK, Hiroshima University LAL (Orsay) in Collaboration withCELIA.](https://reader035.fdocuments.net/reader035/viewer/2022081516/56649e485503460f94b3ba04/html5/thumbnails/10.jpg)
Laser spot size15μm achieved
vertical position[μm]
γ ra
y yi
eld
[A.U
]
σ=18μm
electrons
vertical deirection
σe=10μm
σL=13μm
it was 30μm w/ 2 M cavity
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Cavity feedback with 3D feature
+ =
3D4M cavity resonate only with circularly polarized lasers
cavity length must be L = nλ with very high precision (for enhancement of 1900 dL<< 87pm while L = 1.64m)
L L R
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Stored Power [w]
Right polLeft pol
So
tre
d p
ow
er
Laser Power: 2.6kW
14th Sep 2012
Stored Laser Power in the cavity
FWHM: 110pm
4pm
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ATF 2.16MHz ~2.6×108/sec
5bunches/train
2970±20 MeV ⇒ ~120γs/trainのガンマ線に相当
γ ray Generation
e-
laser
γ
5.6ns
Eγ[MeV]
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Quantitative Understanding of the Cavity• Finesse
・ Airy function・ Life time of the laser light in the cavity
• Stored Power in the cavity・ From injection power・ From transmitted power
• Profile at the interaction point・ Using Compton gamma (laser-wire) ・ Estimate from a measured laser light profile
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Finesse: FWHM / FSR =4040±420
Life time of the laser lightAiry Function
Finesse
2πcτ / L=4040±110
PDShutter
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Two Estimates are consistentInjection(1.3W) × Enhancement(1230) =1.6kWTransmitted(130mW) / Transmittance(0.008%) =1.6kW
Stored Power
(Measured)
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Profile of the laser light at the IP
x
27um
10um
y
Calculated 16umMeasured 13um
レーザー光
電子ビーム
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Issues
x27um
10umy
Design: circle-> alignment
Transmitted power
Reflected power20s
・ Possible thermal effect
・ Profile at the IP
(unexpected) losses on mirrors→distortion
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Digital Feecdback system
Digital PID
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Resonance Finding
cavity cont. signal Stored Power
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Automatic Restoration
cavity cont. signal
Stored Power
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Summary and Prospect• So far
– 2.6kW stored w/ enhancement of 1230– Highly stable ΔL ~ 4pm– vertical laser size at the IP 13μm– 120g/5bunches -> ~2.6×108/sec – Digital Feedback
• Quantitative understanding – Finesse– Powers– Profile
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Summary and Prospect
• Issues – Laser profile at the IP– possible thermal effect
• Near term plan– test Laser profile issue – low loss mirrors– Higher finesse