Emittance Test

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Design

Emittance Desien.png

New deisign: We changed to use just one magnet.


Emittance Desien new.png


HRRL had steer magnets on itself. We don't need external steer magnets. But Dr. Chouffani said that we might need them after quads, if the quads are not on axis. He will think about it.


File:Emittance Test Optim File.txt


File:HRRL Emittance.pdf

Faraday Cup

Farady Cap For HRRL Positorns 1.jpg

Farady Cap For HRRL Positorns 2.jpg

Farady Cap For HRRL Positorns 3.jpg

Farady Cap For HRRL Positorns 4.jpg

Farady Cap For HRRL Positorns 5.jpg

Farady Cap For HRRL Positorns 6.jpg

Farady Cap For HRRL Positorns 7.jpg

Farady Cap For HRRL Positorns 8.jpg


Old Beam Line

HRRL Old BeamLine 1.jpg

HRRL Old BeamLine 2.jpg

HRRL Old BeamLine 3.jpg

HRRL Old BeamLine 4.jpg

HRRL Old BeamLine 5.jpg

HRRL Old BeamLine 6.jpg

Beam Line Parts

Beam Line Parts HRRL Positorns 1.jpg

Beam Line Parts HRRL Positorns 2.jpg

Beam Line Parts HRRL Positorns 3.jpg

Beam Line Parts HRRL Positorns 4.jpg

Beam Line Parts HRRL Positorns 5.jpg

Beam Line Parts HRRL Positorns 6.jpg

Beam Line Parts HRRL Positorns 7.jpg

Beam Line Parts HRRL Positorns 8.jpg


Beam Line Parts HRRL Positorns 9.jpg

Beam Line Parts HRRL Positorns 10.jpg

Beam Line Parts HRRL Positorns 11.jpg

Beam Line Parts HRRL Positorns 12.jpg


Constructed Beam Line for Emittance Test

Vacuum pressure on the beam line is less than [math] 10^{-8} [/math] torr (on 2010-July-7th).

Constructed Beam Line for Emittance Test 1.jpg


Constructed Beam Line for Emittance Test 2.jpg


Constructed Beam Line for Emittance Test 3.jpg



Leveling Survey

Downstream of the beam up by 2.6 mm.

Constructed Beam Line for Emittance Test Leveling Survey.jpg



How to do Leveling Survey and Alignment with Theodolite on e- Beam Line

A. Leveling Beam Pipe

1. Put the theodolite as high as the center of the beam line at upstream. Turn theodolite up and down. If the up angle is equal to down angle from the center of the pipe, theodolite is exactly as high as beam pipe. If not, adjust theodolite, until up and down angles are equal.

2. Once first step finished, then rotate theodolite horizontally to down stream. Turn it up and down, if up and down angles are not equal, adjust the stand till they are equal.


B. How to Make Sure the Quad is Perpendicular to the Beam Line

If the distances between quads and end of cavity at any given points are equal, then quad and end of cavity are parallel. Pipe is perpendicular to the end of the cavity, thus, magnet would also be perpendicular to the pipe.

I will find at lest three random points quads and three corresponding points at the end of the cavity, make sure they are equal, then I can say, magnet is perpendicular to the beam line.

I am planning to stick a metal ruler two, so two faces are parallel.


C. Centering the Quad Magnet with Theodolite

Vertical Centering

1. Finish the step 1 in A.

2. Then turn up the theodolite from the upper edge of the pipe to the magnet hole, call this angle upper angle. Do the same at lower part, call it lower angle. If the this two angles are not equal adjust the stand till they are equal.


Horizantal Centering

We know the diameter of the pipe [math] d_p [/math]. So, we can calculate from the pipe to the edge of the quad as:

Calculate from the Pipe to the edge of the Quad.jpg

We need to make sure this distance is same when measure it horizontally, so that our quad is centered on the pipe. I am going to use a ruler to ...(thinking)


July 2010 Run

Initial Accelerator Settings

E = 10 MeV

Pulse Width <= 50 ns

Average Beam Current = least amount needed to light up YaG crystal, start at 1 mA and Rep rate of 100 Hz.

At the same time we want to do radiation test on HRRL. This is for predicting the radiation after shifting cavity to new position. Radiation test run plan is at: [1]

7/26/10

Alignment check

1.) Survey the Quad to be sure it is centered on the beam pipe

2.) survey the flag to determine if target is centered on the beam pipe

Calibrate green pickup coil to FC

1.) Using the quads and accelerator coils, focus the beam on the YaG crystal to as fine a spot as possible. Monitor the FC during the focusing.

a.) Does a small beam spot size on the crystal give maximum FC signal?

b.) Is there a point where the spot size changes and you can't resolve a change in the FC output?

c.) Remove the YaG target and determine if above observations are unchanged.


2.) After tuning the beam to deliver the Maximum beam current to the FC, measure the FC and green pickup coil output as a function of current by integrating the pulse with an oscilloscope.

FC output Green Pickup Coil output
(mA) (mA)
10
20
30
40
50
60
70

a.) does the FC output change with rep rate? It should not but maybe there is loss at high rates?

7/27/10

unfinished tasks from yesterday

Quad scan

First attempt to measure the spot size change as a function of Quad current

Shall we do both polarities?


Quad Current Beam Spot RMS (0 degrees= Left/right) Beam Spot RMS (90 degrees= Up/Down)
(Amps) (mm) (mm)

7/28/10

Install DAQ system to measure FC and pickup coil output with an ADC

7/29/10

repeat Quad scan

7/30/10

Open day to finish leftover tasks


Consider emittance measurements at different energies.

Go back Positrons