Emittance Measurement: Quadrupole Scan C. Tennant USPAS – January 2011.

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Presentation transcript:

Emittance Measurement: Quadrupole Scan C. Tennant USPAS – January 2011

Quadrupole Scan Formalism We want to know (  ) at location 1 using information from location 2 A typical quad-drift-monitor arrangement Knowing how the Twiss parameters propagate we can relate (     ) to (     ) Combining the previous two expressions we get the following relation Monitor (2) Quad (1)

Quadrupole Scan Formalism – Thin Lens For a thin lens quadrupole and drift, the transfer matrix is given by The beam size (squared) at the “monitor” is then expressed as

Simulated Quadrupole Scan  = G (m -2 ) RMS beam size

Simulated Quadrupole Scan  = G (m -2 ) RMS beam size

Simulated Quadrupole Scan  = G (m -2 )  x = m  x =  x = 7.73 mm-mrad RMS beam size

Simulated Quadrupole Scan  = G (m -2 )  x = m  x =  x = 8.96 mm-mrad RMS beam size

Simulated Quadrupole Scan  = +500 G (m -2 )  x = m  x = 9.93  x = 9.24 mm-mrad RMS beam size

Simulated Quadrupole Scan  = 0 G (m -2 )  x = m  x = 9.85  x = 9.32 mm-mrad RMS beam size

Simulated Quadrupole Scan  = -500 G (m -2 )  x = m  x = 9.82  x = 9.35 mm-mrad RMS beam size

Simulated Quadrupole Scan  = G (m -2 )  x = m  x = 9.81  x = 9.36 mm-mrad RMS beam size

Simulated Quadrupole Scan  = G (m -2 )  x = m  x = 9.81  x = 9.36 mm-mrad RMS beam size

Simulated Quadrupole Scan  = G (m -2 )  x = m  x = 9.81  x = 9.36 mm-mrad RMS beam size

Simulated Quadrupole Scan  = G (m -2 )  x = m  x = 9.81  x = 9.36 mm-mrad RMS beam size

(courtesy P. Evtushenko)

3500 G4500 G 2500 G 5500 G 1500 G 5 mm Transverse Phase Space Tomography monitor observation point  3F region setup as six 90 o matched FODO periods  Scan quad from 1500 G to 5500 G and observe beam at downstream viewer  This generates an effective rotation of 157˚ of the horizontal phase space

Real vs Simulated Data

Measurement in 2F Region 2F region 2F 2F03 2F042F052F06 monitor observation point Compare with multislit and multi- monitor emittance measurement

Transverse Emittance in the FEL Location in FEL Normalized Emittance (mm-mrad) 2F 6F 8F 5F PRELIMINARY

Quadrupole Centering 1.Zero BPMs 2.Add focusing 3.Observe change in BPM 4.Steer in the direction of offset 5.Return quad to nominal strength 6.Iterate Steps (1-5) BPM

Data Analysis Quad Scans possible in 2F – Check quad centering – Be careful about image saturation Measure beam size two different ways: – Manually place cursors to make edge-to-edge measurement (RMS ~ edge-to-edge/6) – use Auto ROI to get RMS value as a function of Cut Level how does it affect the emittance measurement? Compare data to multi-slit and multi-monitor emittance measurements? Do emittances evolve as you expect?