Difference between revisions of "IAC positron beamline"

From New IAC Wiki
Jump to navigation Jump to search
Line 1: Line 1:
[[Image:IAC_Positron_BeamLine_12-10-07.jpg | 50 px ]]
+
 
 +
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.
 +
 
  
  
Line 13: Line 19:
  
 
84 cm = distance between flanges for the first quad doublet
 
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.
 +
 +
= Configuration 3: "Double Black Diamond"
 +
 +
This configuration is would require a substantial amount of effort (3 weeks) and is to be used as a performance test to determine the maximum positron yield from the 25 MeV linac at the IAC.
 +
 +
[[Image:IAC_Positron_BeamLine_12-10-07.jpg | 50 px ]]
 +
  
  

Revision as of 17:15, 12 December 2007

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.


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.

= Configuration 3: "Double Black Diamond"

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

IAC Positron BeamLine 12-10-07.jpg


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