IAC positron beamline

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Below are three possible configurations for a positron beam line at the IAC. They are listed in order of increasing complexity and difficulty and named analogously using ski trail nomenclature.

Configuration 1: "Green run"

This configuration is expected to require the minimal mount of effort (3 days) and is to be used as a "test of principle" in order to justify further investment.

The "Green run" configuration proposes switching only two beamline elements. There are three elements between the last two Dipole magnets in the beam line. The first element after a 45 degree bending magnet is the first quadrupole magnet of a doublet pair. The quadrupole is followed by a quad port for mounting targets and then the second half of the quad doublet just before entering the last 45 degree dipole bending magnet.

The "Green run" configuration would have the first quad of the quad doublet and the target port switch places in the beam line. The target (a Tungsten converter to produce positrons) would be placed just after the first 45 degree dipole. The quad doublet would be positioned after the target and before the last 45 degree bending dipole magnet.


changes

  1. switch target mount assembly and dipole (3 days)

Goals

The goal of this configuration will be to test positron production efficiencies and determine if the results are scalable by improving the beam line optics.

Sketched (not to scale) layout of the 25 MeV beamline:

25MeV IAC.JPG

296 cm = parrallel Distance From the end of the accelerator module (After RF cavities) to experimental cell port

280 cm = Distance From accelerator zero degree beamline to Experimental Cell Wall

56 cm = distance between flanges for the first dipole

84 cm = distance between flanges for the first quad doublet

Configuration 2: " Blue run"

This configuration is expected to require a modest amount of effort (1 week) and is to be used as improved "test of principle" in order to justify further investment.

The "Blue run" configuration would replace the quad doublet mentioned in the "Green run" configuration with the thin Quad triplets.

changes

  1. maching new spool pieces
  2. install control system for the additional quadrupole
  3. recondition thin quadrupoles to be more reliable and leak resistant.

Goals

The goals of this configuration would be similar to the "Green run"

Configuration 3: "Double Black Diamond"

This configuration would require a substantial amount of effort (3 weeks) and would be used as a performance test to determine the maximum positron yield from the 25 MeV linac at the IAC.

changes

  1. replace the first dipole with 6 quadrupoles
  2. replace the first 45 degree bending dipole with one that can bend the beam by 45 degree either beam left or beam right. (this will allow us keep the configuration in place and continue experiments which required the first dipole that was removed)
  3. replace the quad doublet between the last two dipoles with a quad triplet
  4. install a control system for all the new magnets

Criticisms/problems to solve

  1. The thin quadrupoles are difficult to maintain. Specifically new fittings for the cooling lines would need to be installed which would ease maintenance.
  2. There is not enough room for the target following by 6 quadrupoles. Without the target, quadrupoles 1-6 would occupy 1" more space than what exists. Moving the linac to make space is not a desirable option.
  3. A magnet to replace the second dipole which would bend the beam at +/- 45 degrees as well as allow the beam to pass undeflected would need to be procured
  4. Additional power supplies for quads 1-6 may need to be procured.
  5. the proposed beam line changes would require a level of effort similar to moving the Linac in order to fit additional optics elements between the last dipole and the wall

Goal

A complete test of the optimal positron production capabilities using the 25 MeV Linac machine.

Proposed beam line

IAC Positron BeamLine 12-10-07.jpg

Magnet pictures

This picture shows you the current 90 degree bend into the experimental hall. Quad 1 and Quad 2 are shown and then the 2nd Dipole magnet (labeled Bending Magnet 2A a.k.a. Dipole 2) begins after Quad 1 and Quad 2. Dipole 2 is following by another Quad doublet and then a Dipole (Dipole 3) and then a final quad doublet before going through the wall into the experimental cell.


IAC 25MeV 90DegreeBend 11-08-07.jpg

Length of Iron =

Diameter of Coils=


The next picture was taken upstream of the 90 degree bend and shows Dipole 1 which is usually off unless we want to bend beam right into the accelerator hall instead of going straight to Quad 1 and Quad 2.

IAC 25MeV Dipole1 11-08-07.jpg

Label on side of Dipole 1

IAC 25MeV Dipole1 Label 11-08-07.jpg

Label on side of Dipole 2

IAC 25MeV Dipole2 Label 11-08-07.jpg

The Quad doublets in the current beam line have the following label.

IAC 25MeV QuadDoublet Label 11-08-07.jpg

Quad doublet size:

QuadDoublet Width.jpg

QuadDoublet Length.jpg

QuadDoublet CoilSize.jpg

We also have Quad triplet which take up less space than the doubles.

QuadTriplet SingleElement Width.jpg

QuadTriplet SingleElement Length.jpg

QuadTriplet SingleElement CoilSize.jpg