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Initial beam size commissioning for ATF2 T.Okugi 3rd ATF2 Project Meeting, KEK 12/ 19/ 2006.

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Presentation on theme: "Initial beam size commissioning for ATF2 T.Okugi 3rd ATF2 Project Meeting, KEK 12/ 19/ 2006."— Presentation transcript:

1 Initial beam size commissioning for ATF2 T.Okugi 3rd ATF2 Project Meeting, KEK 12/ 19/ 2006

2 Initial beam size commissioning It is difficult to measure the beam size above 350nm with Sintake monitor. How to achieve under 350nm beam size at IP - One idea to use IP-BPM was proposed by Glen White yesterday. - It is convenient to have the beam size monitor with 350nm resolution and with wide dynamic range around IP. - This monitor should be as fast as possible. Candidates for the Beam size monitor. - Carbon wire scanners Well-developed devices and wide dynamic range, but pure resolution (1micron ) - Honda BSM ( presented by Y.Honda yesterday) Good resolution, but not wide dynamic range ( 1.2-0.3micron ? )

3 We cannot put the BSM at IP, because we will put the Shintake monitor at IP - Where to put the BSM with a few hundred resolution?? If you put the 2 nd IP BSM at s=20cm, sigma_y = 50micron. We don’t have any beam size information from BSM. Beam size profile around IP

4 The vertical beam size at s=+/-50cm Is 180nm. It is possible to minimize the nonlinear field around IP by using BSM at s=+/-50cm. However, we can make the beam size small at non-IP location by changing the strength of the final doublet, QF1 and QD0. - No change for sextupole field. Shintake monitor BSM1 BSM2 50cm

5 Simple simulation of beam size tuning Assumed errors 1% strength errors for all quads and sexts No misalignments - QF1 and QD0 fields are set to be ax=ay=0 at s=+/- 50cm. - Sextupole fields were optimized with BSM with 200nm resolution at s=+/- 50cm. - QF1 and QD0 fields are set to be ax=ay=0 at s=0 and measure the beam size. We can achieve comparable beam size to the resolution of both side of BSMs.

6 Beam position scan for beam size measurement. - Carbon wire scanner needs the beam scan, but Shintake monitor and Honda monitor groups said not to use at the presentation in yesterday. Methods 1; by using sweeping magnet Advantage : Easy to operate Easy to calibrate Disadvantage : We need additional device at crowed location. Methods 2; by using magnet mover. Advantage : No additional devices Disadvantage : We need careful calibration and take care of beam size enhancement.

7 Simulation results of the vertical position scan by magnet mover Example of the beam size enhancement by mover scan Beam size is very sensitive for magnet position of some quads.

8 Simulation results of the vertical position scan by magnet mover Magnet Name Step (Dy = 30nm) Scan Range ( < 40nm ) QF5 400nm +/- 850nm QF5A 300nm +/- 4000nm QD4 200nm +/- 3000nm QD4A 200nm +/- 2000nm QD2B 300nm +/- 450nm QF3 2000nm +/- 50nm QD2A 2000nm +/- 50nm QF1 100nm +/- 2200nm QD0 30nm +/- 2100nm Some magnets are narrow scan range. Some magnets are required very small step size for scanning. Other magnets has step size errors from beam optics …

9 Discussion 1) BSM around IP - Enough space to put BSM around IP ? - Should we prepare the additional BSM, Carbon wire scanners (1micron resolution), Honda monitor for the ATF2 commissioning ? 2) Vertical beam position scan at IP - Enough space to put sweeping magnet between QD0 and IP ? - Should we prepare the sweeping magnet, or use the vertical mover of quads for vertical position scan?

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