Spectrometer Optics First pass 48p75d
From Hall A Wiki
If you have questions call Vince Sulkosky or Kalyan Allada, Numbers are on white board
Contents
Integration with LHRS plan
| LHRS step | RHRS step | Approximate beam time | Goals | Status |
| L1 (sieve) | R1 (sieve) | 6h | 60 uA DIS with sieve slit on optics foils and LH2 | |
| L2 (sieve) | 1-2h | Elastic Delta Scan on LH2, 10 uA | ||
| R2 (no sieve) | 3-4h | Elastic Delta Scan on LH2, 60 uA | ||
| L3 (sieve) | R3 (no sieve) | 1h | Elastic dummy | |
| L4 (no sieve) | R4 (no sieve) | 1h | LHRS: elastic LH2 RHRS: DIS on single carbon and optics |
Step R1: Procedure with Sieve-slit
- Time estimate: 6 hours
* Trained personnel will be required to install the 1-inch tungsten sieve-slit collimator onto the front face of the HRS. * If you need to increase the spectrometer momentum setting, make sure you cycle Q2 and Q3 as per the cycling procedure. * Take sieve-slit runs with the multi-foil carbon target (optics) for the inelastic kinematics in the table. * Electron rates assume 9 carbon foils, only 37 out of 155 sieve holes per foil have events (~ 0.41 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] | Raster | θe [deg] | Q2 [GeV2] | W [GeV] | Rate [Hz] at 60 μA | hours at 60 μA | Good Electrons |
| Optics | 2.217 | 1.0 | Off | 48.75 | 1.51 | 1.287 | 14 | 2 | 100k events |
| 15 cm LH2 | 2.217 | 1.0 | 3x3 mm2 | 48.75 | 1.51 | 1.287 | 40.0 | 1.0 | 144k events |
Step R2: Delta Scan with Proton Elastic (without sieve slit)
- Time estimate: 3-4 hours
* Trained personnel will be required to remove the 1-inch tungsten sieve-slit collimator from the front face of the HRS. * Take runs with the 15 cm liquid hydrogen target for the elastic kinematics in the table. * There will be about a 40 minute 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 1.86 GeV2.
| Ebeam (GeV) | k' (GeV) | Raster | θe (deg) | ΔP (%) | Rate [Hz] at 60 μA | minutes at 60 μA | Good Electrons |
| 2.217 | 1.277 | 3x3 mm2 | 48.75 | -4 | 650 | 10 | 390k events |
| 2.217 | 1.253 | 3x3 mm2 | 48.75 | -2 | 650 | 10 | 390k events |
| 2.217 | 1.228 | 3x3 mm2 | 48.75 | 0 | 650 | 20 | 780k events |
| 2.217 | 1.204 | 3x3 mm2 | 48.75 | +2 | 650 | 10 | 390k events |
| 2.217 | 1.179 | 3x3 mm2 | 48.75 | +4 | 650 | 10 | 390k events |
Step R3: Dummy Target Runs
- Go back to the ΔP = 0% elastic setting. Make sure the R-HRS P0 = 1.228 GeV.
- Move the target to "15 cm Dummy"
- Take R-HRS run with same setting as previous step.
- Take data with this setting for 1 hour
| Ebeam (GeV) | k' (GeV) | Raster | θe (deg) | ΔP (%) | Rate [Hz] at 40 μA | hours at 40 μA | Good Electrons |
| 2.217 | 1.228 | 3x3 mm2 | 48.75 | 0 | 19.5 | 1 | 70k events |
Step R4: Procedure without Sieve-slit
- Time estimate: 1 hour
* Take a run at the following kinematics without the sieve-slit collimator. * If you need to increase the spectrometer momentum setting, make sure you cycle Q2 and Q3 as per the cycling procedure. * Electron rates assume 9 carbon foils or 1 single carbon foil, 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 60 μA | minutes at 60 μA | Good Electrons |
| Optics | 2.217 | 1.0 | 173.808 | 48.75 | 1.51 | 1.287 | 250 | 15 | 220k events |
| Single Carbon | 2.217 | 1.0 | 173.808 | 48.75 | 1.51 | 1.287 | 56 | 15 | 50k events |
