Difference between revisions of "Minimum accelerator energy to run experiment"

From New IAC Wiki
Jump to navigation Jump to search
Line 18: Line 18:
  
  
1) Assuming the collimator diameter is <math>\Theta_C</math>:
+
1) some solution of this equation for different collimator size m
  
  <math>\frac{1}{\sqrt{2}}\ (286+183)\ \tan\left(\frac{0.511}{E_{min}}\right) +
+
  <math>m = 1 \Rightarrow E_{min} = 33.1\ MeV  </math><br>
      \frac{1}{2}\ (286+183)\ \tan\left(\frac{0.511}{E_{min}}\right) = 8.73 \Rightarrow E_{min} = 33.1\ MeV  </math>
+
<math>m = 2 \Rightarrow E_{min} = 26.3\ MeV  </math><br>
 +
<math>m = 4 \Rightarrow E_{min} = 22.8\ MeV  </math><br>
  
2) Assuming the collimator diameter is <math>\Theta_C/2</math>:
+
4) for arbitrary collimator size m:
 
 
<math>\frac{1}{\sqrt{2}}\ (286+183)\ \tan\left(\frac{0.511}{E_{min}}\right) +
 
      \frac{1}{2}\ (286+183)\ \tan\left(\frac{1}{2}\ \frac{0.511}{E_{min}}\right) = 8.73 \Rightarrow E_{min} = 26.3\ MeV  </math>
 
 
 
3) Assuming the collimator diameter is <math>\Theta_C/4</math>:
 
 
 
<math>\frac{1}{\sqrt{2}}\ (286+183)\ \tan\left(\frac{0.511}{E_{min}}\right) +
 
      \frac{1}{2}\ (286+183)\ \tan\left(\frac{1}{4}\ \frac{0.511}{E_{min}}\right) = 8.73 \Rightarrow E_{min} = 22.8\ MeV  </math>
 
 
 
4) for arbitrary collimator size <math>\Theta_C/m</math>:
 
  
 
[[File:plot_energy_collimatorsize.jpeg]]
 
[[File:plot_energy_collimatorsize.jpeg]]

Revision as of 22:15, 14 June 2010

Go Back

general setup

Minimum energy condition.png

fitting the collimator size into the hole through the concrete wall

I can express the distance [math]A_1D_1[/math] as function of collimator size [math]\frac{\Theta_C}{m}[/math] and electron beam energy E: 

[math]A_1D_1(E,\ \Theta_C/m) = \frac{469}{2}\tan\left(\frac{0.511}{E}\right)
                              + \frac{469}{\sqrt{2}}\tan\left(\frac{1}{m}\frac{0.511}{E}\right)[/math]


To fit the collimator size into the hole through the concrete wall with radius R = 8.73 cm we need to solve equation: 

[math]A_1D_1(E,\ \Theta_C/m) = 8.73\ cm[/math]


1) some solution of this equation for different collimator size m 

[math]m = 1 \Rightarrow E_{min} = 33.1\ MeV  [/math]

[math]m = 2 \Rightarrow E_{min} = 26.3\ MeV  [/math]

[math]m = 4 \Rightarrow E_{min} = 22.8\ MeV  [/math]

4) for arbitrary collimator size m:

Plot energy collimatorsize.jpeg

All energy under this line is good to run experiment for condition above

GH = 5.08 cm condition

1) assuming the collimator diameter is [math]\Theta_C[/math] 

[math] E_{min} = 73.7\ MeV  [/math]

2) assuming the collimator diameter is [math]\Theta_C/2[/math] 

[math] E_{min} = 36.9\ MeV  [/math]

3) assuming the collimator diameter is [math]\Theta_C/4[/math] 

[math] E_{min} = 18.4\ MeV  [/math]

4) for arbitrary collimator size [math]\Theta_C/m[/math]:

Plot energy F1A.jpeg

All energy under this line is good to run experiment for condition above

both conditions above are together

Plot energy bothcondition.jpeg

All energy under this linse is good to run experiment for both conditions above


Go Back

Retrieved from "https://wiki.iac.isu.edu/index.php?title=Minimum_accelerator_energy_to_run_experiment&oldid=52411"