Difference between revisions of "Spectrometer Optics First pass 48p8d"

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(Procedure with Sieve-slit)
Line 1: Line 1:
==== Procedure without Sieve-slit ====
 
* Time estimate: 1 hour
 
 
* Take a run at the following kinematics without the sieve-slit collimator.
 
* Start with initial right HRS spectrometer tune with the SOS quad in place of right Q1.
 
* If you need to increase the spectrometer momentum setting, make sure you cycle Q2 and Q3 as per the cycling procedure.
 
* Electron rates assume 5 carbon foils or 2 Al dummy foils, 5 mSr acceptance, and 8% delta acceptance.
 
* <b>A GMp expert will check the data quality.</b>
 
<br>
 
 
<table border="1"  style="width:80%">
 
  <tr>
 
    <td>Target</td>
 
    <td>E<SUB>beam</SUB> [GeV]</td>
 
    <td>P<sub>0</sub> [GeV/c]</td>
 
    <td>Right Q1 Current [A]</td>
 
    <td>&theta;<SUB>e</SUB> [deg]</td>
 
    <td>Q<SUP>2</SUP> [GeV<SUP>2</SUP>]</td>
 
    <td>W [GeV]</td>
 
    <td> Rate [Hz] at 20 &mu;A</td>
 
    <td> minutes for 50k events at 20 &mu;A</td>
 
  </tr>
 
  <tr>
 
    <td>Optics</td>
 
    <td>2.301</td>
 
    <td>0.75</td>
 
    <td>153.36</td>
 
    <td>48.74</td>
 
    <td>1.18</td>
 
    <td>1.617</td>
 
    <td>70.5</td>
 
    <td>12</td>
 
  </tr>
 
  <tr>
 
    <td>4 cm Dummy</td>
 
    <td>2.301</td>
 
    <td>0.75</td>
 
    <td>153.36</td>
 
    <td>48.74</td>
 
    <td>1.18</td>
 
    <td>1.617</td>
 
    <td>37.4</td>
 
    <td>22</td>
 
  </tr>
 
</table>
 
<br>
 
 
 
==== Procedure with Sieve-slit ====
 
==== Procedure with Sieve-slit ====
 
* Time estimate: 12 hours
 
* Time estimate: 12 hours
Line 234: Line 187:
 
* Move the target to "Dummy"
 
* Move the target to "Dummy"
 
* Take R-HRS run with same setting as previous step. We need at least 200 K events.
 
* Take R-HRS run with same setting as previous step. We need at least 200 K events.
 +
 +
==== Procedure without Sieve-slit ====
 +
* Time estimate: 1 hour
 +
 +
* Take a run at the following kinematics without the sieve-slit collimator.
 +
* Start with initial right HRS spectrometer tune with the SOS quad in place of right Q1.
 +
* If you need to increase the spectrometer momentum setting, make sure you cycle Q2 and Q3 as per the cycling procedure.
 +
* Electron rates assume 5 carbon foils or 2 Al dummy foils, 5 mSr acceptance, and 8% delta acceptance.
 +
* <b>A GMp expert will check the data quality.</b>
 +
<br>
 +
 +
<table border="1"  style="width:80%">
 +
  <tr>
 +
    <td>Target</td>
 +
    <td>E<SUB>beam</SUB> [GeV]</td>
 +
    <td>P<sub>0</sub> [GeV/c]</td>
 +
    <td>Right Q1 Current [A]</td>
 +
    <td>&theta;<SUB>e</SUB> [deg]</td>
 +
    <td>Q<SUP>2</SUP> [GeV<SUP>2</SUP>]</td>
 +
    <td>W [GeV]</td>
 +
    <td> Rate [Hz] at 20 &mu;A</td>
 +
    <td> minutes for 50k events at 20 &mu;A</td>
 +
  </tr>
 +
  <tr>
 +
    <td>Optics</td>
 +
    <td>2.301</td>
 +
    <td>0.75</td>
 +
    <td>153.36</td>
 +
    <td>48.74</td>
 +
    <td>1.18</td>
 +
    <td>1.617</td>
 +
    <td>70.5</td>
 +
    <td>12</td>
 +
  </tr>
 +
  <tr>
 +
    <td>4 cm Dummy</td>
 +
    <td>2.301</td>
 +
    <td>0.75</td>
 +
    <td>153.36</td>
 +
    <td>48.74</td>
 +
    <td>1.18</td>
 +
    <td>1.617</td>
 +
    <td>37.4</td>
 +
    <td>22</td>
 +
  </tr>
 +
</table>
 +
<br>

Revision as of 14:10, 22 February 2016

Procedure with Sieve-slit

  • Time estimate: 12 hours
* Trained personnel will be required to install the 1-inch tungsten sieve-slit collimator onto the front face of the HRS.
* Take a sieve slit run with the multi-foil carbon target for the inelastic kinematics in the table.
* If you need to increase the spectrometer momentum setting, make sure you cycle Q2 and Q3 as per the cycling procedure.
* Electron rates assume 5 carbon foils, only 37 out of 155 sieve holes per foil have events (~ 0.4 mSr acceptance), and 8% delta acceptance.
* Electron rates assume 2 aluminum foils, only 43 out of 155 sieve holes per foil have events (~ 0.47 mSr acceptance), and 8% delta acceptance.
* Electron rates assume 15 cm LH2 target, only 45 out of 155 sieve holes have events (~ 0.49 mSr acceptance), and 8% delta acceptance.
* Before moving on to the next target, a GMp expert will determine online how many good electron events have been collected.
Target Ebeam [GeV] P0 [GeV/c] Right Q1 Current [A] θe [deg] Q2 [GeV2] W [GeV] Rate [Hz] at 20 μA hours at 20 μA
Optics 2.301 0.75 153.36 48.74 1.18 1.617 5.6 5 (for 100k events)
4 cm Dummy 2.301 0.75 153.36 48.74 1.18 1.617 3.5 4 (for 50k events)
15 cm LH2 2.301 0.75 153.36 48.74 1.18 1.617 20.0 1 (for 72k events)


  • Wire Target Run
* After the above runs are completed, ask for the target group to insert the wire-target (we are not allowed to do it). 
* Target expert (Dave Meekins) will need to go to the Hall and manually move the target in position, so ask for controlled access before starting this step  
* Take a run with the wire target.
* Electron rates assume 200 μm of tungsten, the rate is only for the central hole of the sieve slit (~ 0.023 mSr acceptance), and 8% delta acceptance.
* A GMp expert will determine when enough good electron events have been collected.
Target Ebeam [GeV] P0 [GeV/c] Right Q1 Current [A] θe [deg] Q2 [GeV2] W [GeV] Rate [Hz] at 20 μA hours at 20 μA
200 μm tungsten wire 2.301 0.75 153.36 48.74 1.18 1.617 0.3 1 (for 1k events)
  • After finishing this step, ask for Controlled access so that target expert can move the wire-target out of the way


Delta Scan with Proton Elastic

  • Time estimate: 3 hours
* Trained personnel will be required to remove the 1-inch tungsten sieve-slit collimator from the front face of the HRS.
* Take a run with the 15 cm liquid hydrogen target for the elastic kinematics in the table.
* There will be a time lapse between settings until the right dipole reaches the desired momentum and is stable.
* If you need to increase the spectrometer momentum setting, make sure you cycle Q2 and Q3 as per the cycling procedure.
* Rate estimates only include elastic electrons and does not include rate from inelastic events or from the target endcaps. 
* The Q2 for these settings is 1.96 GeV2.
Ebeam (GeV) k' (GeV) Right Q1 Current [A] θe (deg) ΔP (%) Rate [Hz] at 20 μA minutes for 220k events at 20 μA
2.301 1.304 266.64 48.74 -4 176 21
2.301 1.279 261.53 48.74 -2 176 21
2.301 1.254 256.42 48.74 0 176 21
2.301 1.229 251.3 48.74 +2 176 21
2.301 1.203 245.99 48.74 +4 176 21


Proton Elastic Run and Dummy Target Runs

  • Go back to the ΔP = 0% elastic setting. Make sure the R-HRS P0 = 1.254 GeV and Q1 current = 256.42 A.
  • Take data with this setting for 1-2 hours


Ebeam (GeV) k' (GeV) θe (deg) ΔP (%) Rate [Hz] at 20 μA minutes for 1M events at 20 μA
2.301 1.254 48.74 0 176 ~ 105 mins


  • Move the target to "Dummy"
  • Take R-HRS run with same setting as previous step. We need at least 200 K events.

Procedure without Sieve-slit

  • Time estimate: 1 hour
* Take a run at the following kinematics without the sieve-slit collimator.
* Start with initial right HRS spectrometer tune with the SOS quad in place of right Q1.
* If you need to increase the spectrometer momentum setting, make sure you cycle Q2 and Q3 as per the cycling procedure.
* Electron rates assume 5 carbon foils or 2 Al dummy foils, 5 mSr acceptance, and 8% delta acceptance.
* A GMp expert will check the data quality.
Target Ebeam [GeV] P0 [GeV/c] Right Q1 Current [A] θe [deg] Q2 [GeV2] W [GeV] Rate [Hz] at 20 μA minutes for 50k events at 20 μA
Optics 2.301 0.75 153.36 48.74 1.18 1.617 70.5 12
4 cm Dummy 2.301 0.75 153.36 48.74 1.18 1.617 37.4 22


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