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IP diagnostics Toshiyuki Okugi 2008 / 6 /19 ATF2 Software mini-workshop LAL, Orsay.

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Presentation on theme: "IP diagnostics Toshiyuki Okugi 2008 / 6 /19 ATF2 Software mini-workshop LAL, Orsay."— Presentation transcript:

1 IP diagnostics Toshiyuki Okugi 2008 / 6 /19 ATF2 Software mini-workshop LAL, Orsay

2 Shintake monitor group will construct their own data taking system with local computer, and we cannot get any beam size information at the Shintake monitor commissioning phase. At the commissioning phase, Vsystem Database IP BPM ICT Shintake Monitor Local Computer Beam Position Information Beam Current Information Shintake Monitor Laser Phase Maesuremant and Stabilization Photon Detector Photon Signal from each layer The beam size analysis of Shintake Monitor is used the beam information from ATF control system. Laser Power Meter Laser Intensity Information Data Analysis of Shintake Monitor Group

3 IP BPM for Shintake Monitor Since IP BPM will be stable with respect to the Shintake Monitor table, we can measure the beam position w.r.t. Shintake Monitor fringe pattern. Shintake monitor group can be analyzed the beam size without IP feedback. However, the intra-train IP feedback will be necessary for multi-bunch measurement. Carbon Wire Detector Shintake Monitor group request that the photon detector for Carbon wire should be independent to that for Shintake monitor. The Cherenkov detector for Carbon wire will be prepared beside to Shintake detector. The Carbon wire measurement is purely independent system to the Shintake Monitor.

4 50mm 10mm(0.54 X 0 ) 340mm(18.4 X 0 ) 100mm Photon Detector for Shintake Monitor Most of signal is deposited in first 4 layers. Most of noise is deposited in last large layers. We can separate the signal and noise by using the difference of energy deposit. By Masahiro Oroku in 5 th ATF Project Meeting

5 Test of Photon Detector Performance Performance of photon detector is tested in ATF beamline with pulsed laser wire signal ( same photon distribution ). We found the signal and noise can be separated. By Masahiro Oroku in 5 th ATF Project Meeting The Compton photon signal, which is normalized by laser and beam intensity, is detected by comparing each laser phase with respect to the beam position.

6 Server Process Shintake Monitor Local Computer Database User Software When the beam size analysis was finished, the Shintake monitor local computer put the beam size information and so on through the Vsystem database. User Software Beam size tuning with Shintake monitor information ( Tentative Plan ) Which kind of information should be necessary for the beam tuning ? We should be communicated with the Shintake monitor group

7 2 degree mode 8 degree mode 30 degree mode 174 degree mode 15  m pitch 3.8  m pitch 1.03  m pitch 266nm pitch Layout of the Laser Table By Takashi Yamanaka in 5 th ATF Project Meeting

8 Dynamic Range of Shintake Monitor By changing 4 laser collision angle, Shintake monitor can measure 25 – 6000 nm. By Takashi Yamanaka in 5 th ATF Project Meeting However, when we change the collision angle of Shintake monitor, we must change the laser path, and we must tune the laser path. Which collision angle should be selected for the beam tuning ? We should be communicated with the Shintake monitor group

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