Software

Optim32 beamline design software

http://www-bdnew.fnal.gov/pbar/organizationalchart/lebedev/OptiM/optim.htm

G4Beamline

http://www.muonsinc.com/tiki-index.php?page=G4beamline

Quick Start

The instruction below assume you have successfully installed the software above.

Create the *.in files

On the windows machine you can open the file below which represent one design for the HRRL positron source

File:Optim32 HRRL Design Script V1.0.txt

save the above file as HRRL.opt.

The launch the Optim executable by double clicking.

After it is launched click on the "file" menu in the GUI and select the "Open" menu item to choose the file HRRL.opt.

After it is loaded you should see the following below.

If you click on the icon with the [math]\beta \psi[/math] symbols (9th button from the end of the tool bar) you can get a plot of the beam dispersion

This is an interactive display. You can adjust values in the loaded text vile and watch their effect on the dispersion. Notice the colored rectangles at the colored rectangles at the bottom of the beta curve sub window. Starting from the left bottom there are 3 read rectangles , a blue rectangle, then 3 red rectangles, a blue rectangle, and finally 3 more red rectangles. The red rectangles are the quadrupoles in the beam line and the blue rectangles are the dipoles. If you click on them their element name will appear in the upper right corner of the dispersion sub window.

If you scroll down the HRRL.opt input file to line which says

begin list

you will se a list of all the elements, the B-field values, their lengths, etc...

If you scroll down to the first quad

q0 	L[cm]=13         	G[kG/cm]=0.0438324 	Tilt[deg]=0

you can move the curser the the B-field value "G[kG/cm]=0.0438324" and increment it while watch the effect on the dispersion plot. You increments it hitting the left and right arrow keys while holding down the "Crtl" key. The value of the increment step is controlled by through the parameters available in the dialog box you get when you select "Steps" from the "Edit" menu.

The above says the quadrupole B-field step size is set to 0.005.

Let's assume you have finished a design and now you would like to simulate the beam line using G4beamline.

Create a text file by selecting "Lattice" from the "View" menu (Alt-L is the shortcut key) and click OK when the dialog box appears below.

Clicking "OK" in the dialog box will cause a text window to open up which looks like the image below.

Save the list of elements to a text file. The text window contains other text you don't need for G4bemline. The following is the text file which was written for this example

N 	Name 	S[cm] 	L[cm] 	B[kG] 	G[kG/cm]   S[kG/cm/cm] 	Tilt[deg] 	Tilt_out 	BendAng[deg]
1 	oD0 	4.03293 	4.03293  
2 	q0 	17.0329 	13 	0 	0.0338324 	0 	0
3 	oD1 	20.5462 	3.51326  
4 	q1 	33.5462 	13 	0 	-0.0651436 	0 	0
5 	oD2 	39.5285 	5.9823  
6 	q2 	52.5285 	13 	0 	0.0449155 	0 	0
7 	oD3 	62.18 	9.65149  
8 	gC1 	62.18 	0 	0  Angle[deg]=0  Eff.Length[cm]=0  Tilt[deg]=0
9 	bC1 	92.18 	30 	-0.315179 	0 	0 	0 	0 	-54.1377
10 	GC1 	92.18 	0 	0  Angle[deg]=0  Eff.Length[cm]=0  Tilt[deg]=0
11 	oD7 	108.98 	16.8  
12 	q6 	121.98 	13 	0 	-0.0190153 	0 	0
13 	oD8 	132.68 	10.7  
14 	q7 	145.68 	13 	0 	0.0365559 	0 	0
15 	oD9 	158.13 	12.45  
16 	q8 	171.13 	13 	0 	-0.0231326 	0 	0
17 	oD10 	182.03 	10.9  
18 	gC2 	182.03 	0 	0  Angle[deg]=0  Eff.Length[cm]=0  Tilt[deg]=0
19 	bC2 	212.03 	30 	-0.285179 	0 	0 	0 	0 	-48.9847
20 	GC2 	212.03 	0 	0  Angle[deg]=0  Eff.Length[cm]=0  Tilt[deg]=0
21 	oD11 	242.03 	30  
22 	q9 	262.03 	20 	0 	0.0119605 	0 	0
23 	oD12 	266.541 	4.51061  
24 	q10 	286.541 	20 	0 	-0.00837701 	0 	0
25 	oD13 	292.532 	5.99133  
26 	q11 	312.532 	20 	0 	0.0031277 	0 	0
27 	oD14 	513.032 	200.5