! File: 3383C.PROP ! Database: PEPDB ! Date: 19-FEB-1994:05:48:21 coverpage: title_1: REVISED OPTICAL JITTER OBSERVATORY LEVEL TEST proposal_for: ENG pi_title: SC pi_fname: PIERRE pi_mi: Y. pi_lname: BELY pi_inst: STSCI pi_country: USA pi_phone: 301-338-4800 keywords_1: HSP/FGS hours_pri: 6.00 hours_par: 6.00 num_pri: 1 num_par: 6 hrs: Y hsp: Y fgs: Y realtime: Y time_crit: N pi_position: OPTICAL ENG. ! end of coverpage abstract: line_1: The goals of this jitter OLT are to assess the pointing line_2: performance of HST using data from a science instrument, line_3: to identify modes of oscillation and compare them with line_4: structural models, and to verify that normal operations line_5: procedures with respect to mechanism motions during science line_6: observations are acceptable. This test will provide data line_7: at high frequencies which is unattainable with analysis line_8: of FGS data. The data in the 20-75Hz range will provide line_9: valuable information to the CO-STAR designers. line_11: THIS TEST REQUIRES SPECIAL COMMANDING and MANUAL line_12: TRANSFORMATION. REAL-TIME DOWNLINKS ARE NECESSARY FOR line_13: FOR TARGET ACQUISITION, FOR HIGH RATE HSP DATA, and line_14: FOR CONTROL OF TAPE RECORDER MECHANISM MOTIONS. line_16: PLEASE TAKE NOTE OF EXPOSURE LINE COMMENTS. Validation line_17: unable to handle parallel reqs correctly: line_18: Please contact Lupie, Balzano, McCollough, Younger. line_19: with questions. Latest Revision 6/24/91 (oll). ! ! end of abstract general_form_proposers: lname: LUPIE fname: O. title: DR. mi: L. inst: STSCI country: USA ! lname: BELY fname: PIERRE title: SC mi: Y. inst: STSCI country: USA esa: Y ! lname: STOCKMAN fname: H. title: DR. mi: S. inst: STSCI country: USA ! lname: WHITE fname: R. title: DR. mi: J. inst: STSCI country: USA ! lname: SCHIFFER fname: F. title: DR. mi: H. inst: STSCI country: USA ! lname: BLESS fname: R. title: DR. mi: J. inst: UNIV-WISCONSIN country: USA ! lname: BALZANO fname: V. title: DR. mi: A. inst: STSCI country: USA ! lname: YOUNGER fname: J. title: DR. mi: J. inst: STSCI country: USA ! ! end of general_form_proposers block general_form_text: question: 2 section: 1 line_1: Vibrations will be studied in the range 1-250 HZ. line_2: The test is designed to measure high frequency vibrations line_3: with amplitudes as small as 4 milli-arcsec. line_5: A star will be placed on an HSP aperture edge and the flux will line_6: be monitored at a rate of 1000 HZ. Given an understanding of the line_7: PSF, which will be measured in this test, changes in the flux of line_8: the star on the edge may be interpreted as jitter. line_9: The jitter measurements will be repeated at each of line_10: two orthogonal edges of the aperture. In addition, a shorter line_11: measurement will be made with the star within the aperture to line_12: verify an understanding of the noise characteristics of the HSP. ! question: 3 section: 1 line_1: POINTING REQIREMENTS: For all stellar observations line_2: the FGS Guidance must be FINE-LOCK. line_3: The pointing accuracies required are: line_4: 1) to position the read-beam on the edge of a 10 arcsec line_5: aperture to within 0.2 arcsec, and (2) position a star line_6: on the edge of the aperture to an accuracy of 20 mas. line_7: These stringent pointing requirements justify the line_8: need for REAL-TIME verification observations. line_9: After 'finding' the aperture edge, the star will be line_10: positioned on that edge and high speed data collection line_11: for a visibility period will ensue. The edge line_12: finding and jitter exposure will be performed twice line_13: on each of two orthogonal axes of the aperture, line_14: and in the middle of the aperture (as a control). ! question: 3 section: 2 line_1: EARTH-CALIB DETECTOR CALIBRATION: line_2: Two high resolution HSP maps of a flat field source, line_3: centered on the target edges, will provide a check of the line_4: detector coordinates of those edges, i.e., where the read beam line_5: should be placed. Since there is no evidence for thermal line_6: or predictable temporal effects, these maps will be taken line_7: near the time of the Jitter observations for off-line verification line_8: and analysis. line_13: Accuracies - edges determined to 0.15 arcsec. line_16: FIND V3 EDGE IN V2V3 COORDINATES: line_17: Perform standard Mode I TA. To verify, acquire line_18: an image centered at the edge with higher resolution line_19: than Mode I. Real-time contact requested to line_20: adjust pointing if necessary. *NOTE OSS - non-standard line_21: pointing adjustment - see GF section 7. ! question: 3 section: 3 line_1: JITTER at V3 EDGE line_3: Jitter on V3 Axis - execute a 30 minute high speed line_4: exposure with parallel mechanism motions (Special Commands). line_5: The mechanism motions require special commanding: line_6: o wait for 300 seconds-quiescent jitter. line_7: o Perform following mechanism motions: line_8: - Command Science tape recorder forward for 20S line_9: - WAIT 17S line_10: - Command Science tape recorder forward for 10S line_11: - WAIT 17S line_12: - Command Science tape recorder forward for 20S line_13: - Initiate special commanding to reconfigure the HRS - 112S line_14: - Perform HRS carrousel sequence: line_15: - Safe to G160M wavelength 2000 (34816 to 49376). line_16: Wait 30 seconds line_17: - Emulate HRS WAVESCAN: line_18: Command carrousel to 49316 line_19: Wait 7 sec line_20: Command carrousel to 49256 line_21: Wait 7 sec line_22: Command carrousel to 49196 ! question: 3 section: 4 line_1: Wait 7 sec line_2: Command carrousel to 49136 line_3: Wait 7 sec line_4: - Emulate HRS FPSPLIT: line_5: Move carrousel to 49135 line_6: Wait 7 sec line_7: - Repeat HRS FPSPLIT 4 times, decreasing line_8: carrousel position by 1. line_9: - Rotate carrousel to SAFE 34816. Wait 30 seconds. line_10: - Repeat WAVESCAN series and FPSPLIT series line_11: ONE MORE TIME for a total of TWO times. line_12: - Bring the HRS to HOLD to insure carrousel motor *off*. line_13: - Acquire at least 45S of quiescent data after HRS-to-HOLD. line_14: - Perform parallel FGS astrometry (targets are not real): line_15: - Move FGS servos: FGS POS Mode on two targets - F605W. line_16: - Move FGS Filter: FGS Pos Mode on one target - F550W. line_17: - Move FGS Filter: FGS Pos Mode on one target - F605W. line_18: (End of Mechanism Motion Series) line_19: REPEAT RT EDGE-VERIFICATION IMAGE. line_20: REPEAT JITTER MEASUREMENT ON V3 EDGE WITH MECHANISM MOTIONS. line_22: CONTINUOUS SCAN ACROSS EDGE: line_23: continuous scan across V3 edge - offline analysis of the PSF. ! question: 3 section: 5 line_1: JITTER CONTROL MEASUREMENT line_2: Take data with star in aperture center to line_3: serve as a control to assess HSP noise response. line_4: Perform Mechanism motions in parallel: line_6: - wait about 60 seconds-quiescent jitter line_7: - Command Science tape recorder forward for 20S line_8: - Initiate special commanding to reconfigure the HRS - 112S line_9: - Rotate HRS carrousel from Safe to 49376. line_10: - Wait about 30 sec line_11: - Bring the HRS to HOLD to ensure carrousel motor off. line_15: - Move FGS servos: FGS POS Mode on one target - F605W. line_16: - Move FGS Filter: FGS Pos Mode on one target - F550W. line_18: FIND V2 EDGE IN V2V3 COORDINATES: line_19: Perform standard Mode I TA. To verify, acquire line_20: an image centered at the edge with higher resolution line_21: than Mode I. Real-time contact requested to line_22: adjust pointing if necessary. *NOTE OSS - non-standard line_23: pointing adjustment - see section 7. ! question: 3 section: 6 line_1: JITTER ON V2 EDGE line_2: Jitter on V2 Axis - acquire 30 minute HSP Jitter. line_3: HSP exposure with parallel mechanism motions. line_4: Mechanism motions are IDENTICAL to those line_5: used at V3 edge. line_6: REPEAT EDGE-VERIFICATION MAP. line_7: REPEAT JITTER on V2 EDGE. line_9: CONTINUOUS SCAN ACROSS EDGE: line_10: Perform continuous scan across V2 edge for off-line line_11: modelling of the PSF. ! question: 3 section: 7 line_1: ASSUMPTIONS: line_3: - Banana effect not as predicted; however deflection line_4: instabilities are prevalent with amplitudes up to 0.25 arcsec. line_5: This is deemed to be acceptable, thereby eliminating the line_6: need for REAL-TIME alteration of the READ-BEAM location line_7: and thus reducing some of the risks. line_8: - Confirmation images have been included in order to line_9: verify target positioning -- needed for data interpretation. line_10: - Selected brighter target (spherical aberration). line_11: - Real-Time Edge location in V2V3 coordinates has been eliminated. line_12: Results from HSP calibrations seem to imply high accuracy line_13: relative locations (20-30mas). In addition, the real-time line_14: algorithm to uplink the time after a spatial scan line_15: is not available, thus making any specialized real-time line_16: calculations extremely difficult and risky. ! question: 4 section: 1 line_1: Submitted as an Observatory Level Test to line_2: to assess the pointing stability during line_3: standard operational activities; To provide line_4: information on the excitation line_5: frequencies for the COSTAR design. ! question: 5 section: 1 line_1: EXPOSURE TIME JUSTIFICATION: line_2: Because of the 1 millisecond sampling time and the line_3: goal of determining the power spectrum at frequencies line_4: between 40 and 250HZ and excursions of 0.0005 mas, line_5: the S/N can be improved by taking a large number of line_6: samples and doing a straightforward Fourier Analysis. line_7: The duration is also extended by the S/N requirements line_8: during mechanism motions and commanding overheads. ! question: 6 section: 1 line_1: *** SPECIAL REQUIREMENTS *** line_3: 1) The exposure duration of the actual HSP jitter line_4: exposures should be lengthened or shortened based on line_5: special commanding overheads. line_6: 2) The initial 500-600 seconds of the jitter exposure requires line_7: that no 'controllable' mechanisms be operated. line_8: 3) The stellar target portions of the test are SEQ NO GAP line_9: in order to minimize the number of Mode I TAs line_10: and to ensure stability of the aperture/detector line_11: coordinate systems. line_12: 4) Several REAL-TIME contacts are required for pointing line_13: intervention, high speed data transmision, and active line_14: control of the science tape recorder. line_15: 5) The Earth Calib observations should be obtained as a line_16: SEQ NO GAP connection with the Jitter Series. line_18: 6) PLEASE TAKE NOTE OF EXPOSURE LINE COMMENTS. Validation line_19: could not automatically handle some of the line_20: parallel requirements (e.g., GROUP-FGS in parallel, line_21: SEQ NON-INT in parallel, etc). ! question: 7 section: 1 line_1: OSS: REAL-TIME DATA REDUCTION line_2: - EARTH-CALIB data will be acquired and analyzed in line_3: in advance - NO OSS support will be necessary. line_4: - MODE I - The initial Mode I acquisition will be a standard line_5: INT ACQ into the HSP UV2 target acquisition aperture. line_6: - NON-STANDARD RT ADJUSTMENT - a map centered on the aperture line_7: edge and with higher pixel resolution will be obtained to line_8: verify and adjust star on edge. Standard OSS transformation line_9: coefficienct will yield incorrect results. Will have to line_10: manually calculate any small angle adjustment. Algorithms line_11: to be supplied in collaboration with O. Lupie. line_12: - CONINTINUOUS SCANS - Offline analysis only (NO OSS support). line_13: - JITTER MEASUREMENTS: line_14: Although the HSP Jitter data is coming down in REAL-TIME, line_15: there are NO requirements on OSS. The real-time line_16: requirements are based on data volume and TR control. ! question: 7 section: 2 line_1: Plans for Off-line Data Reduction line_2: - The FGS telemetry will be acquired through line_3: OMS and processed through OMS and personal line_4: software algorithms. In addition, some of the line_5: telemetry will be sent through the PASS alignment line_6: software. line_7: - The HSP jitter series will be Fourier analyzed using line_8: IDL available at the STScI. line_9: - The Engineering Telemetry from the SIs will be line_10: analyzed via OMS to determine the exact timing of the line_11: of the mechanism motions. ! !end of general form text general_form_address: lname: LUPIE fname: OLIVIA mi: L. title: CON inst: STSCI addr_1: 3700 SAN MARTIN DRIVE city: BALTIMORE state: MD zip: 21218 country: USA phone: 301-338-4827 from_date: 01-OCT-83 to_date: 01-JAN-95 ! ! end of general_form_address records fixed_targets: targnum: 1 name_1: HD49798 descr_1: UV PHOT STAND pos_1: RA=06H 48M 04.64S +/- 1", pos_2: DEC=-44D 18' 59.3" +/-1" equinox: 2000 pm_or_par: N fluxnum_1: 1 fluxval_1: V=8.29 fluxnum_2: 2 fluxval_2: TYPE=O5 fluxnum_3: 3 fluxval_3: E(B-V)=0.08 fluxnum_4: 4 fluxval_4: B-V=-0.24 ! targnum: 2 name_1: AST02-REF descr_1: VIRTUAL POINTING pos_1: RA=102.0805318D +/- 2", pos_2: DEC=-44.4752016D +/- 2" equinox: 2000 pm_or_par: N comment_1: STAR SELECTOR MOTION ONLY fluxnum_1: 1 fluxval_1: V=10.0 ! targnum: 3 name_1: AST03-REF descr_1: VIRTUAL POINTING pos_1: RA=102.0883180D +/- 2", pos_2: DEC=-44.4782569D +/- 2" equinox: 2000 pm_or_par: N comment_1: STAR SELECTOR MOTION ONLY fluxnum_1: 1 fluxval_1: V=10.0 ! targnum: 4 name_1: AST04-REF descr_1: VIRTUAL POINTING pos_1: RA=101.7977217D +/- 2", pos_2: DEC=-44.2723527D +/- 2" equinox: 2000 pm_or_par: N comment_1: STAR SELECTOR MOTION ONLY fluxnum_1: 1 fluxval_1: V=10.0 ! targnum: 5 name_1: AST05-REF descr_1: VIRTUAL POINTING pos_1: RA=101.7934273D +/- 2", pos_2: DEC=-44.2778976D +/- 2" equinox: 2000 pm_or_par: N comment_1: STAR SELECTOR MOTION ONLY fluxnum_1: 1 fluxval_1: V=10.0 ! targnum: 6 name_1: AST06-REF descr_1: VIRTUAL POINTING pos_1: RA=102.0805318D +/- 2", pos_2: DEC=-44.0713127D +/- 2" equinox: 2000 pm_or_par: N comment_1: STAR SELECTOR MOTION ONLY fluxnum_1: 1 fluxval_1: V=10.0 ! targnum: 7 name_1: AST07-REF descr_1: VIRTUAL POINTING pos_1: RA=102.0882637D +/- 2", pos_2: DEC=-44.0671458D +/- 2" equinox: 2000 pm_or_par: N comment_1: STAR SELECTOR MOTION ONLY fluxnum_1: 1 fluxval_1: V=10.0 ! targnum: 8 name_1: AST08-REF descr_1: VIRTUAL POINTING pos_1: RA=102.3633419D +/- 2", pos_2: DEC=-44.2723527D +/- 2" equinox: 2000 pm_or_par: N comment_1: STAR SELECTOR MOTION ONLY fluxnum_1: 1 fluxval_1: V=10.0 ! targnum: 9 name_1: AST09-REF descr_1: VIRTUAL POINTING pos_1: RA=102.3676363D +/- 2", pos_2: DEC=-44.2778976D +/- 2" equinox: 2000 pm_or_par: N comment_1: STAR SELECTOR MOTION ONLY fluxnum_1: 1 fluxval_1: V=10.0 ! targnum: 10 name_1: AST010-REF descr_1: VIRTUAL POINTING pos_1: RA=102.0301554D +/- 2", pos_2: DEC=-44.4514953D +/- 2" equinox: 2000 pm_or_par: N comment_1: STAR SELECTOR MOTION ONLY fluxnum_1: 1 fluxval_1: V=10.0 ! targnum: 11 name_1: AST011-REF descr_1: VIRTUAL POINTING pos_1: RA=102.0350059D +/- 2", pos_2: DEC=-44.4568069D +/- 2" equinox: 2000 pm_or_par: N comment_1: STAR SELECTOR MOTION ONLY fluxnum_1: 1 fluxval_1: V=10.0 ! targnum: 12 name_1: AST012-REF descr_1: VIRTUAL POINTING pos_1: RA=101.9140289D +/- 2", pos_2: DEC=-44.1774362D +/- 2" equinox: 2000 pm_or_par: N comment_1: STAR SELECTOR MOTION ONLY fluxnum_1: 1 fluxval_1: V=10.0 ! targnum: 13 name_1: AST013-REF descr_1: VIRTUAL POINTING pos_1: RA=101.9066154D +/- 2", pos_2: DEC=-44.1808906D +/- 2" equinox: 2000 pm_or_par: N comment_1: STAR SELECTOR MOTION ONLY fluxnum_1: 1 fluxval_1: V=10.0 ! targnum: 14 name_1: AST14-REF descr_1: VIRTUAL POINTING pos_1: RA=102.2949784D +/- 2", pos_2: DEC=-44.0948840D +/- 2" equinox: 2000 pm_or_par: N comment_1: STAR SELECTOR MOTION ONLY fluxnum_1: 1 fluxval_1: V=10.0 ! targnum: 15 name_1: AST15-REF descr_1: VIRTUAL POINTING pos_1: RA=102.3045295D +/- 2", pos_2: DEC=-44.0938019D +/- 2" equinox: 2000 pm_or_par: N comment_1: STAR SELECTOR MOTION ONLY fluxnum_1: 1 fluxval_1: V=10.0 ! targnum: 16 name_1: AST16-REF descr_1: VIRTUAL POINTING pos_1: RA=102.4134447D +/- 2", pos_2: DEC=-44.3675710D +/- 2" equinox: 2000 pm_or_par: N comment_1: STAR SELECTOR MOTION ONLY fluxnum_1: 1 fluxval_1: V=10.0 ! targnum: 17 name_1: AST17-REF descr_1: VIRTUAL POINTING pos_1: RA=102.4135973D +/- 2", pos_2: DEC=-44.3739104D +/- 2" equinox: 2000 pm_or_par: N comment_1: STAR SELECTOR MOTION ONLY fluxnum_1: 1 fluxval_1: V=10.0 ! targnum: 18 name_1: AST018-REF descr_1: VIRTUAL POINTING pos_1: RA=101.9775092D +/- 2", pos_2: DEC=-44.3858440D +/- 2" equinox: 2000 pm_or_par: N comment_1: STAR SELECTOR MOTION ONLY fluxnum_1: 1 fluxval_1: V=10.0 ! targnum: 19 name_1: AST19-REF descr_1: VIRTUAL POINTING pos_1: RA=101.9782864D +/- 2", pos_2: DEC=-44.3921600D +/- 2" equinox: 2000 pm_or_par: N comment_1: STAR SELECTOR MOTION ONLY fluxnum_1: 1 fluxval_1: V=10.0 ! targnum: 20 name_1: AST20-REF descr_1: VIRTUAL POINTING pos_1: RA=102.0459318D +/- 2", pos_2: DEC=-44.1054200D +/- 2" equinox: 2000 pm_or_par: N comment_1: STAR SELECTOR MOTION ONLY fluxnum_1: 1 fluxval_1: V=10.0 ! targnum: 21 name_1: AST21-REF descr_1: VIRTUAL POINTING pos_1: RA=102.4451521D +/- 2", pos_2: DEC=-44.1599960D +/- 2" equinox: 2000 pm_or_par: N comment_1: STAR SELECTOR MOTION ONLY fluxnum_1: 1 fluxval_1: V=10.0 ! targnum: 22 name_1: AST22-REF descr_1: VIRTUAL POINTING pos_1: RA=102.4543069D +/- 2", pos_2: DEC=-44.1622528D +/- 2" equinox: 2000 pm_or_par: N comment_1: STAR SELECTOR MOTION ONLY fluxnum_1: 1 fluxval_1: V=10.0 ! targnum: 23 name_1: AST23-REF descr_1: VIRTUAL POINTING pos_1: RA=102.3710229D +/- 2", pos_2: DEC=-44.4406184D +/- 2" equinox: 2000 pm_or_par: N comment_1: STAR SELECTOR MOTION ONLY fluxnum_1: 1 fluxval_1: V=10.0 ! targnum: 24 name_1: AST24-REF descr_1: VIRTUAL POINTING pos_1: RA=102.3710229D +/- 2", pos_2: DEC=-44.4406184D +/- 2" equinox: 2000 pm_or_par: N comment_1: STAR SELECTOR MOTION ONLY fluxnum_1: 1 fluxval_1: V=10.0 ! targnum: 25 name_1: AST25-REF descr_1: VIRTUAL POINTING pos_1: RA=102.3669801D +/- 2", pos_2: DEC=-44.4462637D +/- 2" equinox: 2000 pm_or_par: N comment_1: STAR SELECTOR MOTION ONLY fluxnum_1: 1 fluxval_1: V=10.0 ! ! end of fixed targets ! No solar system records found ! No generic target records found exposure_logsheet: linenum: 1.000 targname: EARTH-CALIB config: HSP/UV2 opmode: IMAGE aperture: 10.0 sp_element: F140LP num_exp: 1 time_per_exp: 10S s_to_n: 6 fluxnum_1: 1 priority: 1 param_1: X=0.0 param_2: Y=-5.0, param_3: X-SIZE=20, param_4: Y-SIZE=20, param_5: SPACING=0.25, param_6: DATA-FORMAT=WORD, req_1: SEQ 1-57 NO GAP; req_2: CYCLE 0 / 1-57 comment_1: IMAGE CENTERED AT V3 EDGE TO VERIFY comment_2: READ-BEAM POINTING (OFFLINE ANALYSIS). ! linenum: 2.000 targname: EARTH-CALIB config: HSP/UV2 opmode: IMAGE aperture: 10.0 sp_element: F140LP num_exp: 1 time_per_exp: 10S s_to_n: 6 fluxnum_1: 1 priority: 1 param_1: X=5.0 param_2: Y=0.0, param_3: X-SIZE=20, param_4: Y-SIZE=20, param_5: SPACING=0.25, param_6: DATA-FORMAT=WORD, comment_1: IMAGE CENTERED AT V2 EDGE TO VERIFY comment_2: READ-BEAM POINTING (OFFLINE ANALYSIS). ! linenum: 10.000 targname: HD49798 config: HSP/UV2 opmode: ACQ num_exp: 1 time_per_exp: 4S s_to_n: 128 fluxnum_1: 1 priority: 1 req_1: GUIDE TOL 0.010"/10-57; req_2: INT ACQ FOR 19; comment_1: STANDARD INT ACQ. GUIDER FGSS IN FINE comment_2: LOCK FOR EXP.LINES 10-57. ! linenum: 19.000 targname: HD49798 config: HSP/UV2 opmode: IMAGE aperture: 10.0 sp_element: F140LP num_exp: 1 time_per_exp: 4S s_to_n: 128 s_to_n_time: 0.01S fluxnum_1: 1 priority: 1 param_1: X=0.0 param_2: Y=-5.0, param_3: X-SIZE=20, param_4: Y-SIZE=20, param_5: SPACING=0.1, param_6: DATA-FORMAT=WORD req_1: POS TARG 0.0,-5.0; req_3: RT ANALYSIS FOR 20 comment_1: NON-STANDARD INT ACQ TO VERIFY comment_3: +V3 EDGE CENTERING (SECTION 7). ! linenum: 20.000 targname: HD49798 config: HSP/UV2 opmode: SINGLE aperture: 10.0 sp_element: F140LP num_exp: 1 time_per_exp: 1800S s_to_n: 50 s_to_n_time: 0.001S fluxnum_1: 1 priority: 1 param_1: SAMPLE-TIME=0.001, param_2: DATA-FORMAT=WORD, param_3: READ-AT=TARGET req_1: NON-INT; req_2: POS TARG 0.0,-5.0; req_3: REQ UPLINK; req_4: RT ANALYSIS; comment_2: RT JITTER DATA FOR FORMAT AND TR comment_3: MANAGEMENT. STAR AT +V3 EDGE. comment_4: READ-BEAM ON +V3 EDGE. ADJUST comment_5: EXP-TIME FOR SPECIAL COMMANDING. ! linenum: 21.000 targname: DARK config: S/C opmode: DATA aperture: NONE num_exp: 1 time_per_exp: 1S priority: 1 param_1: FORMAT=FN, req_1: PAR WITH 20; req_2: RT ANALYSIS; comment_1: GUIDING FGS TELEMETRY MUST SPAN HSP comment_2: JITTER EXPOSURE. comment_3: GUIDING FSG IN FINE LOCK. ! linenum: 22.000 sequence_1: USE sequence_2: S/C-P1 req_1: PAR WITH 20; comment_1: PARALLEL MECHANISM MOTIONS. comment_2: SEE GF QUEST 3. REQUIRES comment_3: SPECIAL COMMANDING. ! linenum: 23.000 targname: HD49798 config: HSP/UV2 opmode: IMAGE aperture: 10.0 sp_element: F140LP num_exp: 1 time_per_exp: 4S s_to_n: 128 s_to_n_time: 0.01S fluxnum_1: 1 priority: 1 param_1: X=0.0, param_2: Y=-5.0, param_3: X-SIZE=20, param_4: Y-SIZE=20, param_5: SPACING=0.1, param_6: DATA-FORMAT=WORD req_1: POS TARG 0.0,-5.0; req_3: RT ANALYSIS FOR 24 comment_1: NON-STANDARD INT ACQ TO VERIFY comment_3: +V3 EDGE CENTERING (SECTION 7). ! linenum: 24.000 targname: HD49798 config: HSP/UV2 opmode: SINGLE aperture: 10.0 sp_element: F140LP num_exp: 1 time_per_exp: 1800S s_to_n: 50 s_to_n_time: 0.001S fluxnum_1: 1 priority: 1 param_1: SAMPLE-TIME=0.001, param_2: DATA-FORMAT=WORD, param_3: READ-AT=TARGET req_1: NON-INT; req_2: POS TARG 0.0,-5.0; req_3: REQ UPLINK; req_4: RT ANALYSIS; comment_1: REPEAT V3-EDGE JITTER. comment_2: ADJUST EXP-TIME FOR SPECIAL comment_3: COMMANDING. ! linenum: 25.000 targname: DARK config: S/C opmode: DATA aperture: NONE num_exp: 1 time_per_exp: 1S priority: 1 param_1: FORMAT=FN, req_1: PAR WITH 24; req_2: RT ANALYSIS; comment_1: GUIDING FGS TELEMETRY MUST SPAN HSP comment_2: JITTER EXPOSURE. comment_3: GUIDING FSG IN FINE LOCK. ! linenum: 26.000 sequence_1: USE sequence_2: S/C-P1 req_1: PAR WITH 24; comment_1: PARALLEL MECHANISM MOTIONS. comment_2: SEE GF QUEST 3. REQUIRES comment_3: SPECIAL COMMANDING. ! linenum: 27.000 targname: HD49798 config: HSP/UV2 opmode: SINGLE aperture: 10.0 sp_element: F140LP num_exp: 1 time_per_exp: 8S s_to_n: 128 s_to_n_time: 0.01S fluxnum_1: 1 priority: 1 param_1: SAMPLE-TIME=0.01, param_2: DATA-FORMAT=WORD, param_3: READ-AT=TARGET req_1: POS TARG 0.0,-5.0; req_2: SPATIAL SCAN SINGLE-EXP; comment_1: READ BEAM ON +V3 EDGE. comment_2: CONTINUOUS SCAN FOR OFFLINE ANALYSIS. ! linenum: 30.000 targname: HD49798 config: HSP/UV2 opmode: SINGLE aperture: 10.0 sp_element: F140LP num_exp: 1 time_per_exp: 150S s_to_n: 40 s_to_n_time: 0.001S fluxnum_1: 1 priority: 1 param_1: SAMPLE-TIME=0.001, param_2: DATA-FORMAT=WORD, req_1: RT ANALYSIS; comment_1: NO SCIENC TAPE RECORDER; comment_2: STAR CENTERED IN APERTURE. comment_3: READ-BEAM CENTERED IN APERTURE. comment_4: ADJUST EXP-TIME TO FOR comment_5: SPECIAL COMMANDING. ! linenum: 31.000 targname: DARK config: S/C opmode: DATA aperture: NONE num_exp: 1 time_per_exp: 1S priority: 1 param_1: FORMAT=FN, req_1: PAR WITH 30; req_2: RT ANALYSIS; comment_1: GUIDING FGS TELEMETRY MUST SPAN HSP comment_2: JITTER EXPOSURE. comment_3: GUIDING FSG IN FINE LOCK. ! linenum: 32.000 sequence_1: USE sequence_2: S/C-P3 req_1: PAR WITH 30; comment_1: PARALLEL MECHANISM MOTIONS. comment_2: SEE GF QUEST 3. REQUIRES comment_3: SPECIAL COMMANDING. ! linenum: 49.000 targname: HD49798 config: HSP/UV2 opmode: IMAGE aperture: 10.0 sp_element: F140LP num_exp: 1 time_per_exp: 4S s_to_n: 128 s_to_n_time: 0.01S fluxnum_1: 1 priority: 1 param_1: X=5.0 param_2: Y=0.0, param_3: X-SIZE=20, param_4: Y-SIZE=20, param_5: SPACING=0.1, param_6: DATA-FORMAT=WORD req_1: POS TARG 5.0,0.0; req_3: RT ANALYSIS FOR 50; comment_1: NON-STANDARD INT ACQ TO VERIFY comment_3: +V2 EDGE CENTERING (SECTION 7). ! linenum: 50.000 targname: HD49798 config: HSP/UV2 opmode: SINGLE aperture: 10.0 sp_element: F140LP num_exp: 1 time_per_exp: 1800S s_to_n: 50 s_to_n_time: 0.001S fluxnum_1: 1 priority: 1 param_1: SAMPLE-TIME=0.001, param_2: DATA-FORMAT=WORD, param_3: READ-AT=TARGET req_1: NON-INT; req_2: POS TARG 5.0,0.0; req_3: REQ UPLINK; req_4: RT ANALYSIS; comment_2: RT JITTER DATA FOR FORMAT AND TR comment_3: MANAGEMENT. STAR AT +V2 EDGE. comment_4: READ-BEAM ON +V2 EDGE. ADJUST comment_5: EXP-TIME FOR SPECIAL COMMANDING. ! linenum: 51.000 targname: DARK config: S/C opmode: DATA aperture: NONE num_exp: 1 time_per_exp: 1S priority: 1 param_1: FORMAT=FN, req_1: PAR WITH 50; req_2: RT ANALYSIS; comment_1: GUIDING FGS TELEMETRY MUST SPAN HSP comment_2: JITTER EXPOSURE. comment_3: GUIDING FSG IN FINE LOCK. ! linenum: 52.000 sequence_1: USE sequence_2: S/C-P1 req_1: PAR WITH 50; comment_1: PARALLEL MECHANISM MOTIONS. comment_2: SEE GF QUEST 3 SECT 4-6. ! linenum: 53.000 targname: HD49798 config: HSP/UV2 opmode: IMAGE aperture: 10.0 sp_element: F140LP num_exp: 1 time_per_exp: 4S s_to_n: 128 s_to_n_time: 0.01S fluxnum_1: 1 priority: 1 param_1: X=5.0 param_2: Y=0.0, param_3: X-SIZE=20, param_4: Y-SIZE=20, param_5: SPACING=0.1, param_6: DATA-FORMAT=WORD req_1: POS TARG 5.0,0.0; req_3: RT ANALYSIS FOR 54; comment_1: NON-STANDARD INT ACQ TO VERIFY comment_3: +V2 EDGE CENTERING (SECTION 7). ! linenum: 54.000 targname: HD49798 config: HSP/UV2 opmode: SINGLE aperture: 10.0 sp_element: F140LP num_exp: 1 time_per_exp: 1800S s_to_n: 50 s_to_n_time: 0.001S fluxnum_1: 1 priority: 1 param_1: SAMPLE-TIME=0.001, param_2: DATA-FORMAT=WORD, param_3: READ-AT=TARGET req_1: NON-INT; req_2: POS TARG 5.0,0.0; req_3: REQ UPLINK; req_4: RT ANALYSIS; comment_1: CONTINGENCY UPLINK BEFORE JITTER. comment_2: RT JITTER DATA FOR FORMAT AND TR comment_3: MANAGEMENT. STAR AT +V2 EDGE. comment_4: READ-BEAM ON +V2 EDGE. ADJUST comment_5: EXP-TIME FOR SPECIAL COMMANDING. ! linenum: 55.000 targname: DARK config: S/C opmode: DATA aperture: NONE num_exp: 1 time_per_exp: 1S priority: 1 param_1: FORMAT=FN, req_1: PAR WITH 54; req_2: RT ANALYSIS; comment_1: GUIDING FGS TELEMETRY MUST SPAN HSP comment_2: JITTER EXPOSURE. comment_3: GUIDING FSG IN FINE LOCK. ! linenum: 56.000 sequence_1: USE sequence_2: S/C-P1 req_1: PAR WITH 54; comment_1: PARALLEL MECHANISM MOTIONS. comment_2: SEE GF QUEST 3 SECT 4-6. ! linenum: 57.000 targname: HD49798 config: HSP/UV2 opmode: SINGLE aperture: 10.0 sp_element: F140LP num_exp: 1 time_per_exp: 8S s_to_n: 128 s_to_n_time: 0.01S fluxnum_1: 1 priority: 1 param_1: SAMPLE-TIME=0.01, param_2: DATA-FORMAT=WORD, param_3: READ-AT=TARGET req_1: POS TARG 5.0,0.0; req_2: SPATIAL SCAN SINGLE-EXP; comment_1: READ BEAM ON +V2 EDGE. comment_2: CONTINUOUS SCAN FOR OFFLINE ANALYSIS. ! linenum: 301.000 sequence_1: DEF S/C-P1 targname: DARK config: S/C opmode: DATA aperture: NONE num_exp: 1 time_per_exp: 300S priority: 1 req_1: SEQ 301-304 NON-INT comment_1: PERFORM PARALLEL CARROUSEL MOTIONS. comment_2: SEE GF SECTION 3. ! linenum: 302.000 sequence_1: ^ sequence_2: ^ targname: DARK config: FGS opmode: POS aperture: ANY sp_element: F605W num_exp: 1 time_per_exp: 10S s_to_n: 20 fluxnum_1: 1 priority: 1 ! linenum: 303.000 sequence_1: ^ targname: DARK config: FGS opmode: POS aperture: ANY sp_element: F550W num_exp: 1 time_per_exp: 5S fluxnum_1: 1 priority: 1 ! linenum: 304.000 sequence_1: ^ targname: AST02-REF config: FGS opmode: POS aperture: ANY sp_element: F605W num_exp: ^ time_per_exp: 7S fluxnum_1: 1 priority: ^ req_1: DO FOR TARG 2-25; comment_1: PERFORM AS 'GROUP-FGS 304 comment_2: WITHIN 2.5M'; comment_3: SELECT TARGET APPROPRIATE FOR comment_4: ROLL AND FGS, ALLOCATE TIME comment_5: FOR 2 TARGETS. ! linenum: 351.000 sequence_1: DEF sequence_2: S/C-P3 targname: DARK config: S/C opmode: DATA aperture: NONE num_exp: 1 time_per_exp: 30S priority: 1 req_1: SEQ 351-353 NON-INT comment_1: PERFORM PARALLEL CARROUSEL comment_2: MOTIONS. SEE GF SECTION 3. ! linenum: 352.000 sequence_1: ^ targname: DARK config: FGS opmode: POS aperture: ANY sp_element: F605W num_exp: 1 time_per_exp: 10S fluxnum_1: 1 priority: 1 ! linenum: 353.000 sequence_1: ^ targname: AST02-REF config: FGS opmode: POS aperture: ANY sp_element: F550W num_exp: 1 time_per_exp: 7S fluxnum_1: 1 priority: 1 req_1: DO FOR TARG 2-25; comment_1: PERFORM AS 'GROUP-FGS 353 comment_2: WITHIN 1.5M'; comment_3: SELECT TARGET APPROPRIATE FOR comment_4: ROLL AND FGS, ALLOCATE TIME comment_5: FOR 1 TARGET. ! ! end of exposure logsheet scan_data: line_list: 27 fgs_scan: N cont_dwell: C dwell_pnts: 0 dwell_secs: 0.00 scan_width: 0.0000 scan_length: 1.0000 sides_angle: 0.0000 number_lines: 1 scan_rate: 0.1250 first_line_pa: 180.0000 scan_frame: S/C len_offset: 0.5000 wid_offset: 0.0000 ! line_list: 57 fgs_scan: N cont_dwell: C dwell_pnts: 0 dwell_secs: 0.00 scan_width: 0.0000 scan_length: 1.0000 sides_angle: 0.0000 number_lines: 1 scan_rate: 0.1250 first_line_pa: 270.0000 scan_frame: S/C len_offset: 0.5000 wid_offset: 0.0000 ! ! end of scan data