| 31 | | === OWFS1 on the blue sky as a function of tracker position, rho and probe position === |
| | 31 | === OWFS on the blue sky as a function of probe position === |
| | 32 | |
| | 33 | Purpose: We want to get an idea of how the orientation changes with different probe positions. |
| | 34 | |
| | 35 | Procedure: |
| | 36 | * Tell the RA that you are going to take the images (will move the probes but won't interfere with anything). |
| | 37 | * On a jove terminal Move the probes to the home5 position with the command {{{home5}}} |
| | 38 | * Save a few 5 second exposures which are not saturated with both WFS1 and WFS2. |
| | 39 | * On a jove terminal Move the probes to the home3 position with the command {{{home3}}} |
| | 40 | * Save a few 5 second exposures which are not saturated with both WFS1 and WFS2. |
| | 41 | * On a jove terminal Move the probes to the home1 position with the command {{{home1}}} |
| | 42 | * Save a few 5 second exposures which are not saturated with both WFS1 and WFS2. |
| | 43 | * Move back to the home3 and home5 positions each in a row (this keeps the probes from getting confused and slow. |
| | 44 | * On a jove terminal Move the probes to the home8 position with the command {{{home8}}} |
| | 45 | * Save a few 5 second exposures which are not saturated with both WFS1 and WFS2. |
| | 46 | |
| | 47 | === OWFS on the blue sky as a function of rho === |
| | 48 | |
| | 49 | Purpose: We want to get an idea of how the orientation changes with rho. |
| | 50 | |
| | 51 | Procedure: |
| | 52 | * Tell the RA that you are going to take the images (will move the probes but won't interfere with anything). |
| | 53 | * Move to center position 0,0,0,0,0 but select rho to be -20 |
| | 54 | * Save a few exposures which are not saturated with both WFS1 and WFS2. |
| | 55 | * Move to center position 0,0,0,0,0 but select rho to be -15 |
| | 56 | * Save a few exposures which are not saturated with both WFS1 and WFS2. |
| | 57 | * Move to center position 0,0,0,0,0 but select rho to be -10 |
| | 58 | * Save a few exposures which are not saturated with both WFS1 and WFS2. |
| | 59 | * Move to center position 0,0,0,0,0 but select rho to be -5 |
| | 60 | * Save a few exposures which are not saturated with both WFS1 and WFS2. |
| | 61 | * Move to center position 0,0,0,0,0 but select rho to be 0 |
| | 62 | * Save a few exposures which are not saturated with both WFS1 and WFS2. |
| | 63 | * Move to center position 0,0,0,0,0 but select rho to be +5 |
| | 64 | * Save a few exposures which are not saturated with both WFS1 and WFS2. |
| | 65 | * Move to center position 0,0,0,0,0 but select rho to be +10 |
| | 66 | * Save a few exposures which are not saturated with both WFS1 and WFS2. |
| | 67 | * Move to center position 0,0,0,0,0 but select rho to be +15 |
| | 68 | * Save a few exposures which are not saturated with both WFS1 and WFS2. |
| | 69 | * Move to center position 0,0,0,0,0 but select rho to be +20 |
| | 70 | * Save a few exposures which are not saturated with both WFS1 and WFS2. |
| | 71 | |
| | 72 | === OWFS on the blue sky as a function of tracker position === |
| | 73 | |
| | 74 | Purpose: We want to get an idea of how the orientation changes with tracker position. |
| | 75 | |
| | 76 | Procedure: |
| | 77 | * Tell the RA that you are going to take the images (will move the probes but won't interfere with anything). |
| | 78 | * Move to center position 0,0,0,0,0 |
| | 79 | * Set exposure times so that WFS1 and WFS2 are not saturating |
| | 80 | * Turn off the loop and pipeline for WFS1 and WFS2 |
| | 81 | * Execute the script WFSXtrackerposition from the jove gui |
