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LCWS2005 at Stanford 18-22/Mar/2004 Tsunehiko OMORI (KEK) e + Polarized e + Generation & Measurement at KEK Laser-based polarized e +

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Presentation on theme: "LCWS2005 at Stanford 18-22/Mar/2004 Tsunehiko OMORI (KEK) e + Polarized e + Generation & Measurement at KEK Laser-based polarized e +"— Presentation transcript:

1 LCWS2005 at Stanford 18-22/Mar/2004 Tsunehiko OMORI (KEK) e + Polarized e + Generation & Measurement at KEK Laser-based polarized e +

2 Collaboration KEK Tokyo Metropolitan Univ Waseda Univ. National Institute of Radiological Sciences Y. Kurihara, T. Okugi, J. Urakawa, T.Omori A.Ohashi I.Yamazaki, K. Sakaue, T. Saito, R. Kuroda, M. Washio, T. Hirose M. Nomura, M. Fukuda

3 i) proof-of-principle demonstrations ii) accumulate technical informations: polarimetry, beam diagnosis, … Experiment@KEK  T = 31 p sec.

4

5 Accelerator Test Facility@KEK 120 m

6

7

8  -ray  Measured Asymmetry A= -0.93± 0.15 % A= 1.18± 0.15 % laser pol. = - 79 %laser pol. = + 79 % M. Fukuda et al., PRL 91(2003)164801

9 Pol.  -ray Production Done: Mar. 2002 N  ≈ 1 x 10 6 /bunch  T(rms) = 31 psec Pol. :  = 88 % (if laser pol. = 100%) (measure E  > 21 MeV) M. Fukuda et al., PRL 91(2003)164801

10 Pol. e + Production N  = 1 x 10 7 /bunch (with new laser)  T(rms) = 31 psec Can NOT measure each e + Polarimetry ? Design values Ne+ = 1 x 10 4 /bunch (E e + = 25 to 45 MeV) Pol. e + ~ 80 %

11 polarized e + Measure e + polarization : use Bremsstrahlung  -ray Pb conveter  -ray E = 40 MeV

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14 Measurement and Cross-Check Measurement Cross-Check non (Liner) ) Calculate A ) ) Fix e + beam pol. (fix laser pol) Flip e- spin in iron (Flip magnet pol.) Calculate A Fix magnet pol.Flip e + beam pol. A(0) : A(0)=0 expected Zero magnet current Not Equal No-polarization, due to residual magnetism ) ) A(R) A(L) A(P) A(N) R L 0 P N

15 CO2 Cherenkov Leakage B Feild e + trajectry Acceptance Mag. Pol. = P Mag. Pol. = N e+e+ e+e+ If e + beam go just center of magnet -> OK

16 CO2 Cherenkov Leakage B Feild e + trajectry Acceptance Mag. Pol. = P Mag. Pol. = N e+e+ e+e+ If e + beam go off center, trajectry near magnet may be different when we flip magnet.

17 Acceptance Correction Define: A(TP,TN) = (TP-TN)/(TP+TN) A(TP,TN) = 0 from absorption in iron A(TP,TN) = 0 acceptance affected by B field ) average transmission TP Fix magnet pol.Sum e + beam pol. non ) average transmission TN Use A(TP,TN) for acceptance correction P N

18 Measurement Cross-Check non (Liner) ) ) ) Fix e + beam pol.Flip magnet pol. Fix magnet pol.Flip e + baem pol. ) ) e + polarization (e + run): results A(R)= +0.16± 0.28% A(L)= -1.63± 0.28% A(0)= -0.24± 0.28% R L A(P)= +0.85± 0.28% A(N)= -0.93± 0.28% A(TP,TN) = -0.57± 0.17% Acceptance Correction 0 P N preliminary

19 Measurement Cross-Check non (Liner) ) ) ) Fix e + beam pol.Flip magnet pol. Fix magnet pol.Flip e + beam pol. ) ) e + polarization (e + run): results A(R)= +0.72± 0.28% A(L)= -1.07± 0.28% A(0)= +0.33± 0.28% A(P)= +0.85± 0.28% A(N)= -0.93± 0.28% Acceptance Corrected by A(TP,TN) R L 0 P N preliminary

20 e + polarization (e + run) e - spin in Iron e + beam spin non A(R)= +0.72± 0.28% A(L)= -1.07± 0.28% A(0)= +0.33± 0.28% preliminary results

21 e + run e - run We did e - run, also.

22 Measurement Cross-Check non (Liner) ) ) ) Fix e - (laser) pol.Flip magnet pol. Fix magnet pol.Flip e - (laser) pol. ) ) e - polarization (e - run): results A(R)= +0.81± 0.28% A(L)= -0.91± 0.27% A(0)= -0.26± 0.27% A(P)= +0.76± 0.27% A(N)= -0.96± 0.27% A(TP,TN) = -0.12± 0.16% NO correction is necessary Acceptance Correction R L 0 P N preliminary

23 e - polarization (e - run) e - spin in Iron e - beam spin non A(L)= -0.91± 0.27% A(0)= -0.26± 0.27% A(R)= +0.81± 0.28% preliminary results

24 Summary 1) We confirmed propagation of the polarization from laser photons ->  -rays -> pair created e + s & e - s. 2) We established polarimetry of short pulse & high intensity  -rays, positrons, and electrons. 3) Measured value of asymmetries agreed with expected value. ( ~ 0.7 %) --> We got e + polarization of ~80%

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