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Y. R. Roblin Hall A beamline and accelerator status.

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Presentation on theme: "Y. R. Roblin Hall A beamline and accelerator status."— Presentation transcript:

1 Y. R. Roblin Hall A beamline and accelerator status

2 Y. R. Roblin Hall A beamline configuration Most significant changes for 12GeV: The slow raster was removed The fast raster was upgraded by doubling the coils Some quadrupoles were added (one in front of compton), some were upgraded with stronger power supplies Hall A dipoles were refurbished and measured but no change in the steel (unlike elsewhere in the accelerator).

3 Y. R. Roblin Setting up the machine for hall a Establish beam in main machine, pass by pass. Adjust the main machine optics for optimal transport (transport matching) Make the machine achromatic (dispersion correction) Setup the extraction Perform beam envelope measurements at 1C05 and match the beam to the hall (partially done by hand)

4 Y. R. Roblin Setting up the machine for halla (cont) Establish tune mode beam to dump Test and calibrate the ion chambers Test and commission the new fast raster Establish beam envelope and CW beam

5 Y. R. Roblin Longitudinal optics In order to be optimal, optical beam path has to be the same for all lasers (A,B,C) and synchronization such that all electron beams travel the same path. Hall A beam in ARC1 Hall D beam in ARC1

6 Y. R. Roblin Extraction Configuration The extraction lines were redesigned for the 12GeV era and significant upgrades were made (first two passes were not changed from 6GeV) We commissioned third, first and fourth pass so far. Fourth pass was troublesome for a few days.

7 Y. R. Roblin Extraction region 12 GeV Upgrade Plan View Recirculation ARCS RelocatedNew 12 GeV Upgrade Elevation View Horizontally deflecting RF cavities (499MHz, copper) Horizontally deflecting septa Horizontally deflecting dipoles Pass 1 Pass 2 Pass 4 Pass 3 Pass 5 Modified Horizontally deflecting Lambertson R R C L recirculated extracted

8 Y. R. Roblin Matching strategy In a recirculating linac machine, we have to distinguish two types of matching: Transport matching where one “adapts” the maching transport (i.e quadrupole magnets settings) in order to optimally transport a beam with a specific phase space described by twiss parameters and emittance one measures with a harp scan.

9 Y. R. Roblin Matching strategy (cont) Envelope Matching This is the action of adjusting quadrupole settings to give a specific beam size at a given point in the beamline. Typically done in the halls to adjust the spot at the compton, at the target etc.. Broadly speaking, in a ring these two actions are the same since the equilibrium twiss parameters are periodic and solely determined by the structure of the lattice (for electron beams anyway, not true for hadrons)

10 Y. R. Roblin Transport matching Why is it necessary? 1.We do not know the initial twiss parameters of the beam phase space (varies with laser on cathode, injector settings, etc..) 2.Imperfect model in the machine, especially the linacs where we do not account for the focusing dynamics and gradient distribution 3.Small error accumulations, i.e the components such as quads are stable to a few 10^-4 but vary a 1% in the family. 4.Field homogeneities in the S/R magnet is orbit dependent.

11 Y. R. Roblin CEBAF matching strategy Current method: Adjust the transport matching by touching up quadrupoles in each recombiner corner. Implications: 1.We let the errors accumulate through linacs and arcs 2.We do it empirically by making the courant-snyder invariant stays invariant using a small cross-section of the phase space (two correctors/plane)

12 Y. R. Roblin CEBAF matching strategy (cont) More rigorous method: Measure the phase space parameters (twiss,emittance) at a given location and use that as an input to compute a match to the transport rather than empirically adjust the quads via courant-snyder. We have the tools and methods. It is more time consuming so the faster method has been prevalent in the past.

13 Y. R. Roblin CEBAF matching strategy for HALLS Measure the phase space parameters (twiss,emittance) at a given location and use that as an input to compute a match to the transport rather than empirically adjust the quads via courant-snyder. Worked successfully as demonstrated in the past in Hall A/C and recently in Hall D.

14 Y. R. Roblin Hall A twiss parameters measurement

15 Y. R. Roblin Nov 08 Measurements

16 Y. R. Roblin Nov 08 Measurements

17 Y. R. Roblin Nov 15 Measurements

18 Y. R. Roblin Nov 15 Measurements

19 Y. R. Roblin Machine reproducibility Emittance seems reproducible in the horizontal plane (for Hall D, in both planes). Emittance always ends up around the same numbers within a few percents. Having difficulties in the vertical plane due to unfavorable optics for this measurement. DateEmit X (geom)Emit Y(geom) 11/081.08e-93.79e-9* 11/151.17e-93.58e-9*+ * Suspiciously high emittance with small beta_y + dispersion corrected from arc swipe

20 Y. R. Roblin Machine achromaticity Response at 1C05 for an energy shift of 2.3e-4 when the Machine is not achromatically compensated.

21 Y. R. Roblin Using the 30Hz RF kicks to characterize dispersion Starting from ARC7, we have energy dependent vertical orbit

22 Y. R. Roblin Using the 30Hz RF kicks to characterize dispersion(cont) Horizontal also shows up in the transport line to Hall A

23 Y. R. Roblin Using the 30Hz RF kicks to characterize dispersion(cont) Once it gets to Hall A, there are huge energy dependent orbits

24 Y. R. Roblin Using the 30Hz RF kicks to characterize dispersion(cont) After adjusting quads in ARC7, we are back to nominal in Hall A

25 Y. R. Roblin Lessons learned so far Measurements very dependent on leakage dispersion. Ensure that there is none at the harp and quad. Ensure that the beam does not move during quad scans Check that answer is the same regardless of laser used.

26 Y. R. Roblin Dispersion leakage (cont)

27 Y. R. Roblin Absolute energy determination and machine setup

28 Y. R. Roblin Absolute energy determination(cont)

29 Y. R. Roblin The Energy puzzle ?

30 Y. R. Roblin Still a success for far We established 7.4 GeV/c with CW beam for the first time in Hall A. Still a few problems to shake (raster behavior, beam quality, ion chamber reliability, etc..) Working on reproducibility, procedural issues and so on

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