! File: 2182C.PROP ! Database: PEPDB ! Date: 17-FEB-1994:02:40:54 coverpage: title_1: OPTICAL JITTER OBSERVATORY LEVEL TEST proposal_for: OBS pi_title: SC pi_fname: PIERRE pi_mi: Y. pi_lname: BELY pi_inst: STSCI pi_country: USA pi_phone: 301-338-4800 hours_pri: 3.00 num_pri: 2 hrs: Y hsp: Y fgs: Y realtime: Y time_crit: N pi_position: OPTICAL ENG. ! end of coverpage abstract: line_1: (2182) The goals of the 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. ! ! end of abstract general_form_proposers: 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: LUPIE fname: O. title: DR. mi: L. inst: STSCI country: USA ! lname: WHITE fname: R. 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 and low frequency jitter line_4: with amplitudes of 1-2 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. line_13: During the course of the HSP series, several components line_14: will be moved: HRS carrousel, tape recorder, astrometry line_15: FGS servos, and the FGS filter wheels. ! question: 3 section: 1 line_1: Because this test is scheduled for early OV, a series of line_2: banana calibrations and focal plane calibrations will be performed line_3: prior to the jitter measurements and as part of this test. line_5: Exposure-line 1: Earth-Calib TA Aperture Map line_6: Make a map of the TA aperture illuminated by an extended source line_7: to determine a course banana mode correction (possibly 1 arcsec). line_8: Analyze image in REAL TIME to determine and uplink correction. line_9: Exposure-line 2: Earth-Calib 0.4 Aperture Map line_10: In order to get a finer banana correction, make a small map line_11: with finer spatial resolution of a 0.4 arcsec aperture. line_12: Analyze in real-time and uplink banana correction. line_13: Exposure-line 3: Earth-Calib Horizontal Edge Scan line_14: In order to determine the edges in deflection coordinates to an line_15: an even finer accuracy(<0.044"), make a 1 line map in the horizontal line_16: deflection direction. Analyze in real time to find best edge location. line_17: **The edge coordinates for the read beam determined here must be used line_18: in Exp_lines 12 and 212 for accurate read beam placement on edge.** line_19: Area scan characteristics: Begin at deflection line_20: (H=H0+91 steps),(V=V0). X-SIZE=45, Y-SIZE=1, STEP-SIZE=0.044". line_21: V0 and H0 are the banana-corrected center of TA aperture. line_22: THE CORRESPONDING X AND Y IN ARCSEC (PROP INSTRUCT FRAME) line_23: ARE X=2.83" and Y=-2.83". Exp time per 45 points=1.125 sec. ! question: 3 section: 2 line_1: Exposure-line 3 continued: line_2: RT ANALYSIS FOR lines 10-50: Determine horizontal deflection line_3: coordinates for edge from 50% level of flux versus defl step. line_4: This X value will be used to set the banana mode deflections for line_5: subsequent exposure lines. The analysis can be done during line_6: slew in exp line 10. line_7: Exposure-line 4: Earth-Calib Vertical Edge Scan line_8: Same as 3 for the vertical edge. line_9: **The edge coordinates for the read beam determined here must be used line_10: in Exp_lines 42 and 242 for accurate read beam placement on edge.** line_11: Area scan characteristics: Begin at deflection line_12: (H=H0 steps),(V=V0+91). X-SIZE=1, Y-size=45, STEP-SIZE=0.044". line_13: H0 and V0 are the banana-corrected center of TA aperture. line_14: THE CORRESPONDING X AND Y IN ARCSEC (PROP INSTRUCT FRAME) line_15: ARE X=2.83" and Y=2.83". Exp time per 45 pts=1.125 sec. line_16: RT ANALYSIS FOR lines 10-50: edge from 50% level of flux. ! question: 3 section: 3 line_1: Exposure-line 10(and 210): MODE I into 10" Aperture line_2: Acquisition of star for step/dwell and jitter measurement. line_3: The database V2V3 position of aperture center may be in error. line_4: This Mode I is necessary to bring the star to the data base center line_5: of the aperture and **if necessary** make a smmall offset correction line_6: to place it on the detector coordinate center determined in lines 3-4. line_7: The tolerance is reflected in the size of the spatial scan (1 arcsec). line_8: If the V2V3 is off by more than 0.3 arcsec, then the small offset line_9: correction must be made. line_10: Exposure-line 12(and 212): STEP/DWELL over Horizontal Edge line_11: Step/Dwell needed to determine V2V3 edge coordinates and star PSF. line_12: POS TARG 3.54, -3.54 (+3.18,-3.18) but with line_13: length offset = 0.5 arcsec to start scan (4.5 arcsec from line_14: center in Horiz direction - please UPDATE with accurate line_15: coord transformation coeff). This exp line is necessary line_16: to determine edge to an accuracy of <0.05 arcsec in RT. line_17: Perform DF224 Step and Dwell manuever to step the line_18: star across the 10 arcsec aperture edge. SCAN LENGTH: 1.0 arcsec, line_19: STEP SIZE: 0.05 arcsec, SUGGESTED TIMING: dwell-2 seconds, line_20: HSP sample+readout=1 sec, slew=10seconds. line_21: RT ANALYSIS FOR line 20: On-line determination of V2V3 line_22: edge - determine the step in the series where the line_23: flux is 50 percent peak in the function, flux versus offset. ! question: 3 section: 4 line_1: Exposure-line 20(and 220): Jitter on Horizontal Axis line_2: 1100 second HSP exposure with parallel mechanism motions. line_3: Exposure-line 22(and 222): SEQ S/C-P1 and S/C-P2: line_4: Exp-line-300(and 310): S/C Dark - Insert delay before HRS carrousel line_5: motion 600 seconds. Begin sequence to bring up HRS but line_6: time such that carrousel motor turn-on does NOT occur line_7: BEFORE 600 sec (tolerance 20 sec) into the HSP measurement. line_8: Exp-line 301(and 311): S/C Dark: Perform the following activities: line_9: *** FOR HRS CARROUSEL MOTION USE COMMAND BLOCK ZCOSETUP***** line_10: -Turn on HRS carrousel motor (but do not rotate). line_11: -WAIT 20. line_12: - Rotate HRS carrousel: Safe to G160M wavelength 2000 line_13: (34816 to 49376). line_14: - After completion of rotation, WAIT 5. line_15: - Emulate HRS WAVESCAN and repeat: line_16: a. Command carrousel to 49316 line_17: b. Wait 2 line_18: c. Command carrousel to 49256 line_19: d. Wait 2 line_20: e. Command carrousel to 49196 line_21: f. Wait 2 line_22: g. Command carrousel to 49136 line_23: h. Wait 2 - con't in next section.. ! question: 3 section: 5 line_1: --parallel mechanism con't. line_2: - Emulate HRS FPSPLIT: line_3: i. Move carrousel to 49135 line_4: j. Wait 2 line_5: k. Repeat (i,j) 4 times, decreasing line_6: carrousel position by 1. line_7: - Rotate carrousel to SAFE 34816. line_8: - Repeat WAVESCAN series and FPSPLIT series TWO MORE TIMES line_9: for a total of THREE repeats. line_10: - WAIT 5 line_11: - Command Engineering tape recorder playback for 20 sec line_12: - WAIT 5 line_13: - Command Engineering tape recorder playback for 10 sec line_14: - WAIT 5 line_15: - Command Engineering tape recorder playback for 20 sec line_16: in parallel, rotate HRS carrousel from SAFE (34816) to line_17: 49376 (wave 2000, G160M). line_18: - WAIT 5 line_19: - Turn OFF carrousel motor line_20: Exp-line 302(and 312) FGS POS ANY,F605W - observe line_21: one of targets #11-58 (or #101-140) in list for 60 sec. ! question: 3 section: 6 line_1: Exp-line 304(and 314) S/C Dark - Command FGS filter wheel: line_2: -Command astrometry FGS filter wheel Position 4 to 5. line_3: -WAIT 2 line_4: -Command astrometry FGS filter wheel Position 5 to 4. line_5: -WAIT 2 line_6: -Command astrometry FGS filter wheel Position 4 to 5. line_7: -WAIT 2 line_8: -Command astrometry FGS filter wheel Position 5 to 4. line_9: -End parallel sequence line_10: End of parallel Mechanism motion sequence. line_12: Exposure-line 28(and 228): Repeat Mode I to match Read Beam and Star line_13: Mode I needed to center star in aperture again. line_15: Exposure-line 30(and 230): Jitter Control Sequence line_16: Take data with star in aperture center to study HSP noise response. line_17: Initiate next sequence of HSP sampling with the line_18: star fully visible in the aperture, exp time 150S. ! question: 3 section: 7 line_1: Exposure-line 31(and 231): SEQ S/C-P3 (or S/C-P4) line_2: Perform in parallel with exposure line 30(and 230): line_3: Exp-line 350(and 360): S/C Dark: Bring up HRS but time carrousel line_4: motor turn-on does NOT occur BEFORE 60 sec (tolerance 40 sec). line_5: Exp-line 351(and 361): S/C Dark: HRS Carrousel - **ZCOSETUP.** line_6: -Turn on HRS carrousel motor. line_7: -WAIT 5. line_8: -Rotate HRS carrousel from Safe to 49376. line_9: -Command Engineering TAPE playback recorder 10 seconds. line_10: Exp-line 352(and 362): FGS POS,ANY,F605W, Select one star line_11: from list, take data for 30 seconds. line_12: Exp-line 353(and 363) S/C Dark - Command FGS filter wheel: line_13: -Command astrometry FGS filter wheel Position 4 to 5. line_14: Exposure-line 42(and 242): STEP/DWELL over Vertical Edge line_15: Step/Dwell needed to determine V2V3 edge coordinates. line_16: (Pre-planned) POS TARG +3.54,+3.54, line_17: but with length offset - 0.5 arcsec to start scan 4.5 arcsec from line_18: center in Vert direction (or at +3.18,+3.18)-please UPDATE with line_19: accurate coord transformation coeff). line_20: Perform DF224 Step and Dwell manuever to step the line_21: star across the 10 arcsec aperture edge. Similar to Horiz edge. ! question: 3 section: 8 line_1: Exposure-line 50(and 250): Jitter on Vertical Axis line_2: 1100 sec HSP exposure with parallel mechanism motions. line_4: Exposure-line 52(and 252): SEQ S/C-P1 (or S/C-P2): line_5: REPEAT ALL ACTIVITIES IN EXPOSURE line 22(OR 222) line_6: FOR VERTICAL AXIS. ! question: 4 section: 1 line_1: Submitted as an Observatory Level Test. ! question: 5 section: 1 line_1: 1) EXPOSURE LINES 22, 32, 52, 222, 232, 252 REQUIRE HRS COMMAND BLOCK line_2: 'ZCOSETUP' FOR PARALLEL MECHANISM MOTION ACTIVITIES (see GF.Q3). line_3: 2) EXPOSURE LINES 22, 32, 52, 222, 232, 252 REQUIRE SHORT SEQUENCES line_4: OF ENGINEERING TAPE RECORDER PLAYBACK. (see GF.Q3 SECTIONS 4-7). line_5: 3) EXPOSURE LINES 22, 52, 222, 252 REQUIRE FGS FILTER WHEEL line_6: MOTION (see GF.Q3 SECTIONS 4-7). line_7: 4) EXPOSURE LINES 3 AND 4: THESE LINES REQUIRE line_10: ONE LINE MAPS IN THE **DETECTOR DEFLECTION SYSTEM** HORIZONTAL line_11: AND VERTICAL DIRECTIONS. See GF QUEST 3-2 for DETAILS. line_14: 5) THIS TEST REQUIRES EXTENSIVE REAL-TIME DATA ANALYSIS WHICH MAY line_15: REQUIRE SPECIALIZED PROCEDURES (see GF QUEST 3 for details). ! question: 5 section: 2 line_1: 1. The VIS-IDT aperture plate has been previously measured line_2: using the bright earth and checked against ground line_3: spec on aperture centers. line_4: 2. The banana mode has been sufficiently characterized such that line_5: it may be predicted to better than 0.5 arcsec and that the line_6: HSP has been stabilized at the star position so that the line_7: positions will remain constant through the test. line_8: 3. Intermediate FGS/FGS and Phase II HSP/FGS Alignments line_9: completed and the DF224 STEP/DWELL capability (STScI OLT) has line_10: been tested. line_11: 4. On-board banana correction procedures have been tested. line_12: 5. Commands needed to rotate HRS carrousel, tape recorder, and line_13: FGS have been tested and verified in-flight. line_14: 6. Data NOT to be taken during SAA passage. line_15: 7. TEST IS NOT TO BE POSTPONED IF FGS ASTROMETRY MODES ARE line_16: NOT OPERATIONAL. REMOVE THOSE PARALLEL SEQUENCES. line_17: 8. Exposure Lines 20 and 50: Tape recorder motion, line_18: other than the schedule given in Question 3, also must not occur. line_19: 9. Real Time Analysis for Banana Mode deflection and target location line_20: required. line_21: 10. REPETITIONS: Repeat test during SV (SV DELTA PLAN). ! question: 6 section: 1 line_1: 1. Defining aperture edges and centers must be performed in sequence line_2: and directly preceeding jitter measurements because of the line_3: changing nature of the focal plane and HSP relay optics. line_4: 2. The jitter measurements must be un-interrupted due to the line_5: technical goals of the test described in Questions 2 and 3. line_6: 3. A repetition of the test during SV is requested in order line_7: in order to assess the pointing stability after line_8: the focal plane has settled and the full alignment calirbrations line_9: have been performed. ! question: 7 section: 0 line_1: Test requires real-time analysis procedures as specified line_2: in question 3. The actual jitter data will be analyzed off-line line_3: using software available in the STScI OMS and the SDAS/IRAF line_4: environment. ! !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 STANDARD STAR pos_1: RA= 06H48M04.64S +/- 0.1S, pos_2: DEC= -44D18'59.3" +/- 0.1" equinox: 2000 comment_1: HSP COUNT RATE: 3.5E+06/SEC; comment_2: STAR IS HST UV STANDARD TARGET fluxnum_1: 1 fluxval_1: V=8.29, TYPE=05, B-V=-0.24,E(B-V)=0.08 ! targnum: 2 name_1: BD+75D325 descr_1: UV STANDARD STAR pos_1: RA= 08H10M49.31S +/-0.1S, pos_2: DEC= -74D57'57.5" +/-0.1" equinox: 2000 comment_1: BACK-UP TARGET IF comment_2: THE FIRST IS INACCESSIBLE. comment_3: HSP COUNT RATE: 1.1E+06/SEC; comment_4: STAR IS HST UV STANDARD TARGET fluxnum_1: 1 fluxval_1: V=9.54, TYPE=SD0, B-V=-0.37,E(B-V)=-0.05 ! targnum: 11 name_1: AST-1-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR HD 49798 pos_1: RA = 101.801384 D +/- 0.00006D, pos_2: DEC = -43.744013 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 6.2 +/- 2 ! targnum: 12 name_1: AST-2-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR HD 49798 pos_1: RA = 101.697892 D +/- 0.00006D, pos_2: DEC = -43.744206 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 5.8 +/- 2 ! targnum: 13 name_1: AST-3-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR HD 49798 pos_1: RA = 101.558865 D +/- 0.00006D, pos_2: DEC = -43.834559 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 9.4 +/- 2 ! targnum: 14 name_1: AST-4-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR HD 49798 pos_1: RA = 102.543106 D +/- 0.00006D, pos_2: DEC = -44.245862 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 6.5 +/- 2 ! targnum: 15 name_1: AST-5-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR HD 49798 pos_1: RA = 102.484129 D +/- 0.00006D, pos_2: DEC = -44.396537 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 7.5 +/- 2 ! targnum: 16 name_1: AST-6-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR HD 49798 pos_1: RA = 101.56016 D +/- 0.00006D, pos_2: DEC = -44.662359 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 7.1 +/- 2 ! targnum: 17 name_1: AST-7-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR HD 49798 pos_1: RA = 101.361106 D +/- 0.00006D, pos_2: DEC = -44.639691 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 9.4 +/- 2 ! targnum: 18 name_1: AST-8-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR HD 49798 pos_1: RA = 101.792515 D +/- 0.00006D, pos_2: DEC = -44.716607 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 9.4 +/- 2 ! targnum: 19 name_1: AST-9-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR HD 49798 pos_1: RA = 101.186765 D +/- 0.00006D, pos_2: DEC = -44.554217 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 9.4 +/- 2 ! targnum: 20 name_1: AST-10-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR HD 49798 pos_1: RA = 100.9385 D +/- 0.00006D, pos_2: DEC = -44.402132 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 9.4 +/- 2 ! targnum: 21 name_1: AST-11-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR HD 49798 pos_1: RA = 100.923868 D +/- 0.00006D, pos_2: DEC = -43.816461 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 7.1 +/- 2 ! targnum: 22 name_1: AST-12-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR HD 49798 pos_1: RA = 101.138879 D +/- 0.00006D, pos_2: DEC = -43.748236 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 7.9 +/- 2 ! targnum: 23 name_1: AST-13-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR HD 49798 pos_1: RA = 101.643541 D +/- 0.00006D, pos_2: DEC = -44.25812 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 8.3 +/- 2 ! targnum: 24 name_1: AST-14-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR HD 49798 pos_1: RA = 101.795409 D +/- 0.00006D, pos_2: DEC = -44.113255 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 8.3 +/- 2 ! targnum: 25 name_1: AST-15-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR HD 49798 pos_1: RA = 101.862336 D +/- 0.00006D, pos_2: DEC = -44.114795 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 12.4 +/- 2 ! targnum: 26 name_1: AST-16-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR HD 49798 pos_1: RA = 101.927911 D +/- 0.00006D, pos_2: DEC = -44.119885 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 11.1 +/- 2 ! targnum: 27 name_1: AST-17-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR HD 49798 pos_1: RA = 101.882796 D +/- 0.00006D, pos_2: DEC = -44.071661 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 12.4 +/- 2 ! targnum: 28 name_1: AST-18-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR HD 49798 pos_1: RA = 101.924674 D +/- 0.00006D, pos_2: DEC = -44.1811 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 11.1 +/- 2 ! targnum: 29 name_1: AST-19-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR HD 49798 pos_1: RA = 101.89291 D +/- 0.00006D, pos_2: DEC = -44.178543 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 12.4 +/- 2 ! targnum: 30 name_1: AST-20-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR HD 49798 pos_1: RA = 101.856689 D +/- 0.00006D, pos_2: DEC = -44.160756 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 11.1 +/- 2 ! targnum: 31 name_1: AST-21-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR HD 49798 pos_1: RA = 101.938061 D +/- 0.00006D, pos_2: DEC = -44.223697 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 11.1 +/- 2 ! targnum: 32 name_1: AST-22-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR HD 49798 pos_1: RA = 101.819876 D +/- 0.00006D, pos_2: DEC = -44.24694 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 11.1 +/- 2 ! targnum: 33 name_1: AST-23-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR HD 49798 pos_1: RA = 101.83501 D +/- 0.00006D, pos_2: DEC = -44.268116 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 12.4 +/- 2 ! targnum: 34 name_1: AST-24-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR HD 49798 pos_1: RA = 101.877832 D +/- 0.00006D, pos_2: DEC = -44.298035 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 12.4 +/- 2 ! targnum: 35 name_1: AST-25-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR HD 49798 pos_1: RA = 101.90866 D +/- 0.00006D, pos_2: DEC = -44.370931 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 12.4 +/- 2 ! targnum: 36 name_1: AST-26-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR HD 49798 pos_1: RA = 101.931317 D +/- 0.00006D, pos_2: DEC = -44.459225 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 12.4 +/- 2 ! targnum: 37 name_1: AST-27-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR HD 49798 pos_1: RA = 101.754966 D +/- 0.00006D, pos_2: DEC = -44.30141 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 11.1 +/- 2 ! targnum: 38 name_1: AST-28-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR HD 49798 pos_1: RA = 101.590219 D +/- 0.00006D, pos_2: DEC = -44.35566 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 11.1 +/- 2 ! targnum: 39 name_1: AST-29-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR HD 49798 pos_1: RA = 101.704107 D +/- 0.00006D, pos_2: DEC = -44.302135 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 11.1 +/- 2 ! targnum: 40 name_1: AST-30-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR HD 49798 pos_1: RA = 101.488081 D +/- 0.00006D, pos_2: DEC = -44.323313 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 11.1 +/- 2 ! targnum: 41 name_1: AST-31-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR HD 49798 pos_1: RA = 101.339497 D +/- 0.00006D, pos_2: DEC = -44.305146 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 12.4 +/- 2 ! targnum: 42 name_1: AST-32-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR HD 49798 pos_1: RA = 101.366228 D +/- 0.00006D, pos_2: DEC = -44.187105 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 9.4 +/- 2 ! targnum: 43 name_1: AST-33-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR HD 49798 pos_1: RA = 101.43558 D +/-0.00006D, pos_2: DEC = -44.386625 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 11.1 +/- 2 ! targnum: 44 name_1: AST-34-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR HD 49798 pos_1: RA = 101.366882 D +/- 0.00006D, pos_2: DEC = -44.429453 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 10.2 +/- 2 ! targnum: 45 name_1: AST-35-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR HD 49798 pos_1: RA = 101.472679 D +/- 0.00006D, pos_2: DEC = -44.500838 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 11.1 +/- 2 ! targnum: 46 name_1: AST-36-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR HD 49798 pos_1: RA = 101.680917 D +/- 0.00006D, pos_2: DEC = -44.138848 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 12.4 +/- 2 ! targnum: 47 name_1: AST-37-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR HD 49798 pos_1: RA = 101.69794 D +/- 0.00006D, pos_2: DEC = -44.147787 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 12.4 +/- 2 ! targnum: 48 name_1: AST-38-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR HD 49798 pos_1: RA = 101.470754 D +/- 0.00006D, pos_2: DEC = -44.282239 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 12.4 +/- 2 ! targnum: 49 name_1: AST-39-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR HD 49798 pos_1: RA = 101.546304 D +/- 0.00006D, pos_2: DEC = -44.207911 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 12.4 +/- 2 ! targnum: 50 name_1: AST-40-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR HD 49798 pos_1: RA = 101.546396 D +/- 0.00006D, pos_2: DEC = -44.217085 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 12.4 +/- 2 ! targnum: 51 name_1: AST-41-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR HD 49798 pos_1: RA = 101.377816 D +/- 0.00006D, pos_2: DEC = -44.32613 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 12.4 +/- 2 ! targnum: 52 name_1: AST-42-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR HD 49798 pos_1: RA = 101.442593 D +/- 0.00006D, pos_2: DEC = -44.081474 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 10.2 +/- 2 ! targnum: 53 name_1: AST-43-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR HD 49798 pos_1: RA = 101.639803 D +/- 0.00006D, pos_2: DEC = -44.423796 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 11.1 +/- 2 ! targnum: 54 name_1: AST-44-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR HD 49798 pos_1: RA = 101.57178 D +/- 0.00006D, pos_2: DEC = -44.215232 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 11.1 +/- 2 ! targnum: 55 name_1: AST-45-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR HD 49798 pos_1: RA = 101.461489 D +/- 0.00006D, pos_2: DEC = -44.436769 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 8.3 +/- 2 ! targnum: 56 name_1: AST-46-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR HD 49798 pos_1: RA = 101.521509 D +/- 0.00006D, pos_2: DEC = -44.270915 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 11.1 +/- 2 ! targnum: 57 name_1: AST-47-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR HD 49798 pos_1: RA = 101.745151 D +/- 0.00006D, pos_2: DEC = -44.520149 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 12.4 +/- 2 ! targnum: 58 name_1: AST-48-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR HD 49798 pos_1: RA = 101.824484 D +/- 0.00006D, pos_2: DEC = -44.418093 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 12.4 +/- 2 ! targnum: 101 name_1: AST-101-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR BD +75 325 pos_1: RA = 121.634515 D +/- 0.00006D, pos_2: DEC = 75.478613 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 9.5 +/- 2 ! targnum: 102 name_1: AST-102-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR BD +75 325 pos_1: RA = 122.284694 D +/- 0.00006D, pos_2: DEC = 75.317248 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 5.9 +/- 2 ! targnum: 103 name_1: AST-103-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR BD +75 325 pos_1: RA = 121.88313 D +/- 0.00006D, pos_2: DEC = 75.336439 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 7.8 +/- 2 ! targnum: 104 name_1: AST-104-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR BD +75 325 pos_1: RA = 121.589522 D +/- 0.00006D, pos_2: DEC = 75.331864 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 9.5 +/- 2 ! targnum: 105 name_1: AST-105-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR BD +75 325 pos_1: RA = 122.420931 D +/- 0.00006D, pos_2: DEC = 75.053353 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 9.5 +/- 2 ! targnum: 106 name_1: AST-106-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR BD +75 325 pos_1: RA = 121.139567 D +/- 0.00006D, pos_2: DEC = 74.949845 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 7.2 +/- 2 ! targnum: 107 name_1: AST-107-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR BD +75 325 pos_1: RA = 121.209738 D +/- 0.00006D, pos_2: DEC = 74.935147 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 8.6 +/- 2 ! targnum: 108 name_1: AST-108-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR BD +75 325 pos_1: RA = 119.80457 D +/- 0.00006D, pos_2: DEC = 75.623158 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 7.8 +/- 2 ! targnum: 109 name_1: AST-109-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR BD +75 325 pos_1: RA = 121.187482 D +/- 0.00006D, pos_2: DEC = 75.112911 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 9.5 +/- 2 ! targnum: 110 name_1: AST-110-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR BD +75 325 pos_1: RA = 121.314589 D +/- 0.00006D, pos_2: DEC = 75.188043 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 7.8 +/- 2 ! targnum: 111 name_1: AST-111-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR BD +75 325 pos_1: RA = 121.7583 D +/- 0.00006D, pos_2: DEC = 75.186146 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 10.8 +/- 2 ! targnum: 112 name_1: AST-112-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR BD +75 325 pos_1: RA = 121.88367 D +/- 0.00006D, pos_2: DEC = 75.165698 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 10.8 +/- 2 ! targnum: 113 name_1: AST-113-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR BD +75 325 pos_1: RA = 122.073673 D +/- 0.00006D, pos_2: DEC = 75.051808 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 9.5 +/- 2 ! targnum: 114 name_1: AST-114-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR BD +75 325 pos_1: RA = 122.120465 D +/- 0.00006D, pos_2: DEC = 75.166356 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 9.5 +/- 2 ! targnum: 115 name_1: AST-115-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR BD +75 325 pos_1: RA = 122.065189 D +/- 0.00006D, pos_2: DEC = 75.251903 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 9.5 +/- 2 ! targnum: 116 name_1: AST-116-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR BD +75 325 pos_1: RA = 121.967175 D +/- 0.00006D, pos_2: DEC = 75.336604 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 9.5 +/- 2 ! targnum: 117 name_1: AST-117-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR BD +75 325 pos_1: RA = 121.800152 D +/- 0.00006D, pos_2: DEC = 75.363891 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 10.8 +/- 2 ! targnum: 118 name_1: AST-118-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR BD +75 325 pos_1: RA = 121.736601 D +/- 0.00006D, pos_2: DEC = 75.297205 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 10.8 +/- 2 ! targnum: 119 name_1: AST-119-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR BD +75 325 pos_1: RA = 121.53891 D +/- 0.00006D, pos_2: DEC = 75.266344 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 10.8 +/- 2 ! targnum: 120 name_1: AST-120-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR BD +75 325 pos_1: RA = 121.410669 D +/- 0.00006D, pos_2: DEC = 75.335829 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 10.8 +/- 2 ! targnum: 121 name_1: AST-121-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR BD +75 325 pos_1: RA = 121.062407 D +/- 0.00006D, pos_2: DEC = 75.328146 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 10.8 +/- 2 ! targnum: 122 name_1: AST-122-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR BD +75 325 pos_1: RA = 121.333959 D +/- 0.00006D, pos_2: DEC = 75.253874 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 10.8 +/- 2 ! targnum: 123 name_1: AST-123-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR BD +75 325 pos_1: RA = 120.477418 D +/- 0.00006D, pos_2: DEC = 75.331656 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 10.8 +/- 2 ! targnum: 124 name_1: AST-124-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR BD +75 325 pos_1: RA = 120.403181 D +/- 0.00006D, pos_2: DEC = 75.31395 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 10.8 +/- 2 ! targnum: 125 name_1: AST-125-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR BD +75 325 pos_1: RA = 120.480687 D +/- 0.00006D, pos_2: DEC = 75.273242 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 10.8 +/- 2 ! targnum: 126 name_1: AST-126-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR BD +75 325 pos_1: RA = 121.084242 D +/- 0.00006D, pos_2: DEC = 75.254096 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 10.8 +/- 2 ! targnum: 127 name_1: AST-127-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR BD +75 325 pos_1: RA = 121.098679 D +/- 0.00006D, pos_2: DEC = 75.204733 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 10.8 +/- 2 ! targnum: 128 name_1: AST-128-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR BD +75 325 pos_1: RA = 120.932019 D +/- 0.00006D, pos_2: DEC = 75.200653 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 10.8 +/- 2 ! targnum: 129 name_1: AST-129-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR BD +75 325 pos_1: RA = 121.024908 D +/- 0.00006D, pos_2: DEC = 75.190296 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 10.8 +/- 2 ! targnum: 130 name_1: AST-130-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR BD +75 325 pos_1: RA = 120.972126 D +/- 0.00006D, pos_2: DEC = 75.160215 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 10.8 +/- 2 ! targnum: 131 name_1: AST-131-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR BD +75 325 pos_1: RA = 121.649428 D +/- 0.00006D, pos_2: DEC = 75.070982 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 10.8 +/- 2 ! targnum: 132 name_1: AST-132-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR BD +75 325 pos_1: RA = 121.667341 D +/- 0.00006D, pos_2: DEC = 75.046112 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 10.8 +/- 2 ! targnum: 133 name_1: AST-133-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR BD +75 325 pos_1: RA = 121.805731 D +/- 0.00006D, pos_2: DEC = 74.985525 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 10.8 +/- 2 ! targnum: 134 name_1: AST-134-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR BD +75 325 pos_1: RA = 121.515227 D +/- 0.00006D, pos_2: DEC = 74.883966 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 9.5 +/- 2 ! targnum: 135 name_1: AST-135-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR BD +75 325 pos_1: RA = 120.498912 D +/- 0.00006D, pos_2: DEC = 75.036511 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 9.5 +/- 2 ! targnum: 136 name_1: AST-136-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR BD +75 325 pos_1: RA = 120.251628 D +/- 0.00006D, pos_2: DEC = 74.982108 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 9.5 +/- 2 ! targnum: 137 name_1: AST-137-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR BD +75 325 pos_1: RA = 120.612594 D +/- 0.00006D, pos_2: DEC = 74.900177 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 10.8 +/- 2 ! targnum: 138 name_1: AST-138-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR BD +75 325 pos_1: RA = 120.347973 D +/- 0.00006D, pos_2: DEC = 74.918249 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 10.8 +/- 2 ! targnum: 139 name_1: AST-139-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR BD +75 325 pos_1: RA = 121.238921 D +/- 0.00006D, pos_2: DEC = 74.895581 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 10.8 +/- 2 ! targnum: 140 name_1: AST-140-REF descr_1: REFERENCE STAR FOR ASTROMETRY JITTER TEST descr_2: STAR NEAR BD +75 325 pos_1: RA = 120.999247 D +/- 0.00006D, pos_2: DEC = 75.049258 D +/- 0.0006D equinox: 1950.0 fluxnum_1: 1 fluxval_1: V = 10.8 +/- 2 ! ! end of fixed targets ! No solar system records found ! No generic target records found exposure_logsheet: linenum: 1.000 targname: EARTH-CALIB config: HSP/VIS opmode: IMAGE aperture: 10.0 sp_element: F160LP num_exp: 1 time_per_exp: 10S priority: 1 req_1: SEQ 1-52 NO GAP; req_2: RT ANALYSIS FOR 2; comment_1: ANALYZE (RT) MAP FOR APERTURE CENTER. comment_2: RT UPLINK OF BANANA OFFSETS comment_3: PRIOR TO LINE 2. ! linenum: 2.000 targname: ^ config: ^ opmode: ^ aperture: 0.4-B sp_element: F160LP num_exp: 1 time_per_exp: 10S priority: 1 param_1: SPACING=0.0486 req_1: RT ANALYSIS FOR 3,4; comment_1: ANALYZE MAP comment_2: TO DETERMINE APERTURE CENTER. comment_3: RT UPLINK OF BANANA CORRECTION comment_4: PRIOR TO LINE 3. ! linenum: 3.000 targname: ^ config: ^ opmode: ^ aperture: 10.0 sp_element: F160LP num_exp: 1 time_per_exp: 1.125S priority: 1 param_1: X-SIZE=45, param_2: Y-SIZE=1, param_3: SPACING=0.0486, param_4: X=2.83,Y=-2.83 req_1: RT ANALYSIS; comment_1: 45X1 MAP ACROSS EDGE comment_2: IN THE HORIZONTAL DEFLECTION comment_3: DIRECTION. RT UPLINK FOR CORRECTION. comment_4: SEE GF QUEST 3 SECT 1-2. ! linenum: 4.000 targname: ^ config: ^ opmode: ^ aperture: ^ sp_element: ^ num_exp: 1 time_per_exp: 1.125S priority: 1 param_1: X-SIZE=1, param_2: Y-SIZE=45, param_3: SPACING=0.0486, param_4: X=2.83,Y=2.83 req_1: RT ANALYSIS FOR 10; comment_1: 1X45 MAP ACROSS VERT EDGE; comment_2: IN THE VERTICAL DEFLECTION comment_3: DIRECTION. RT UPLINK FOR CORRECTION. comment_4: SEE GF QUEST 3 SECT 1-2. ! linenum: 10.000 targname: HD49798 config: HSP/VIS opmode: ACQ num_exp: 1 time_per_exp: 10S s_to_n: 6 fluxnum_1: 1 priority: 1 req_5: INT ACQ FOR 12; ! linenum: 12.000 targname: ^ config: HSP/VIS opmode: SINGLE aperture: 10.0 sp_element: F160LP num_exp: 1 time_per_exp: 250S s_to_n: 1000 s_to_n_time: 1S fluxnum_1: 1 priority: 1 param_1: SAMPLE-TIME=1, param_2: DATA-FORMAT=LONGWORD, param_3: READ-AT=TARGET req_1: POS TARG 3.467198,-3.602574; req_2: SPATIAL SCAN SINGLE-EXP; req_3: INT ACQ FOR 20; comment_1: READ BEAM ON +HORIZ EDGE FROM comment_2: LINE 3. STEP STAR ACROSS EDGE. ! linenum: 20.000 targname: ^ config: HSP/VIS opmode: SINGLE aperture: 10.0 sp_element: F160LP num_exp: 1 time_per_exp: 1100S 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 +3.467198,-3.602574; req_3: RT ANALYSIS comment_1: NO STR; comment_2: STAR AT POS TARG DETERMINED FROM comment_3: STEP/DWELL (LINE 12); comment_4: READ-BEAM ON +H EDGE(LINE 3). ! linenum: 21.000 targname: DARK config: S/C opmode: DATA aperture: NONE num_exp: 1 time_per_exp: 1100S priority: 1 param_1: FORMAT=FN, req_1: PAR WITH 20; req_2: RT ANALYSIS; comment_1: GUIDING FSG IN FINE LOCK. GUIDING comment_2: FGS TELEMETRY MUST SPAN ENTIRE HSP comment_3: JITTER EXPOSURE. ! 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 SECT 4-6. ! linenum: 30.000 targname: HD49798 config: HSP/VIS opmode: SINGLE aperture: 10.0 sp_element: F160LP num_exp: 1 time_per_exp: 150S 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, req_1: RT ANALYSIS; comment_1: NO STR; comment_2: STAR CENTERED IN APERTURE. comment_3: READ-BEAM CENTERED IN APERTURE. ! linenum: 31.000 targname: DARK config: S/C opmode: DATA aperture: NONE num_exp: 1 time_per_exp: 150S priority: 1 param_1: FORMAT=FN, req_1: PAR WITH 30; req_2: RT ANALYSIS; comment_1: GUIDING FGS IN FINE LOCK. GUIDING comment_2: FGS TELEMETRY MUST SPAN ENTIRE HSP comment_3: JITTER EXPOSURE. ! 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 SECT 7. ! linenum: 42.000 targname: HD49798 config: HSP/VIS opmode: SINGLE aperture: 10.0 sp_element: F160LP num_exp: 1 time_per_exp: 250S s_to_n: 1000 s_to_n_time: 1S fluxnum_1: 1 priority: 1 param_1: SAMPLE-TIME=1, param_2: DATA-FORMAT=LONGWORD, param_3: READ-AT=TARGET req_1: POS TARG 3.602574,3.467198; req_2: SPATIAL SCAN SINGLE-EXP; req_3: INT ACQ FOR 50; comment_1: READ BEAM ON +VERT EDGE FROM comment_2: LINE 4. STEP STAR ACROSS EDGE. ! linenum: 50.000 targname: ^ config: HSP/VIS opmode: SINGLE aperture: 10.0 sp_element: F160LP num_exp: 1 time_per_exp: 1100S 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 +3.602574, +3.467198; req_3: RT ANALYSIS; comment_1: NO STR; comment_2: STAR AT POS TARG DETERMINED comment_3: STEP/DWELL (LINE 42). comment_4: READ-BEAM ON +V EDGE(LINE 4). ! linenum: 51.000 targname: DARK config: S/C opmode: DATA aperture: NONE num_exp: 1 time_per_exp: 1100S priority: 1 param_1: FORMAT=FN, req_1: PAR WITH 50; req_2: RT ANALYSIS; comment_1: GUIDING FGS IN FINE LOCK. GUIDING comment_2: FGS TELEMETRY MUST SPAN ENTIRE HSP comment_3: JITTER EXPOSURE. ! 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: 300.000 sequence_1: DEF sequence_2: S/C-P1 targname: DARK config: S/C opmode: POINTING aperture: V1 num_exp: 1 time_per_exp: 600S priority: 1 req_1: SEQ 300-304 NON-INT comment_1: INSERT TO DELAY START OF comment_2: CARROUSEL MOTION, SEE GF.3 SECT 4. ! linenum: 301.000 sequence_1: ^ sequence_2: ^ targname: ^ config: ^ opmode: ^ aperture: ^ num_exp: 1 time_per_exp: 300S priority: 1 comment_1: PERFORM PARALLEL CARROUSEL MOTIONS. comment_2: SEE GF.3 SECTION 4-6. ! linenum: 302.000 sequence_1: ^ sequence_2: ^ targname: AST-1-REF config: FGS opmode: POS aperture: ANY sp_element: F605W num_exp: 1 time_per_exp: 60S s_to_n: 20 fluxnum_1: 1 priority: 1 req_1: DO FOR TARG 11-58; comment_1: SELECT TARGET APPROPRIATE FOR comment_2: ROLL AND FGS, ALLOCATE TIME comment_3: FOR 2 TARGETS. ! linenum: 303.400 sequence_1: ^ targname: AST-1-REF config: FGS opmode: POS aperture: ANY sp_element: F550W num_exp: 1 time_per_exp: 5S priority: 1 param_1: LOCK=COARSE, ! linenum: 303.600 sequence_1: ^ targname: ^ config: ^ opmode: ^ aperture: ^ sp_element: F605W num_exp: ^ time_per_exp: ^ priority: ^ param_1: LOCK=COARSE, ! linenum: 303.800 sequence_1: ^ targname: ^ config: ^ opmode: ^ aperture: ^ sp_element: F550W num_exp: ^ time_per_exp: ^ priority: ^ param_1: LOCK=COARSE, ! linenum: 304.000 sequence_1: ^ targname: ^ config: ^ opmode: ^ aperture: ^ sp_element: F605W num_exp: ^ time_per_exp: ^ priority: ^ param_1: LOCK=COARSE, ! linenum: 350.000 sequence_1: DEF sequence_2: S/C-P3 targname: DARK config: S/C opmode: POINTING aperture: V1 num_exp: 1 time_per_exp: 60S priority: 1 req_1: SEQ 350-353 NON-INT comment_1: INSERT TO DELAY START OF comment_2: CARROUSEL MOTION, SEE GF.3 SECT 7. ! linenum: 351.000 sequence_1: ^ sequence_2: ^ targname: DARK config: S/C opmode: POINTING aperture: V1 num_exp: 1 time_per_exp: 30S priority: 1 comment_1: PERFORM PARALLEL CARROUSEL comment_2: MOTIONS. SEE QUEST 3 SECT 7. ! linenum: 352.000 sequence_1: ^ targname: AST-1-REF config: FGS opmode: POS aperture: ANY sp_element: F605W num_exp: 1 time_per_exp: 60S priority: 1 req_1: DO FOR TARG 11-58 comment_1: SELECT ANY TARGET APPROPRIATE comment_2: FOR ROLL AND FGS. ALLOCATE TIME comment_3: FOR 1 TARGET. ! linenum: 353.000 sequence_1: ^ targname: AST-1-REF config: FGS opmode: POS aperture: ANY sp_element: F550W num_exp: 1 time_per_exp: 5S priority: 1 ! linenum: 401.000 targname: EARTH-CALIB config: HSP/VIS opmode: IMAGE aperture: 10.0 sp_element: F160LP num_exp: 1 time_per_exp: 10S priority: 1 req_1: SEQ 401-450 NO GAP; req_2: RT ANALYSIS FOR 402; comment_1: ANALYZE (RT) MAP FOR APERTURE CENTER. comment_2: RT UPLINK OF BANANA OFFSETS PRIOR TO comment_3: LINE 402. ! linenum: 402.000 targname: ^ config: ^ opmode: ^ aperture: 0.4-B sp_element: ^ num_exp: ^ time_per_exp: ^ priority: ^ param_1: SPACING=0.0486, req_1: RT ANALYSIS FOR 403, 404; comment_1: ANALYZE MAP TO DETERMINE APERTURE comment_2: CENTER. RT UPLINK OF BANANA comment_3: CORRECTION PRIOR TO LINE 3. ! linenum: 403.000 targname: ^ config: ^ opmode: ^ aperture: 10.0 sp_element: ^ num_exp: ^ time_per_exp: 1.125S priority: ^ param_1: X-SIZE=45, param_2: Y-SIZE=1, param_3: SPACING=0.0486, param_4: X=2.83, param_5: Y=2.83, req_1: RT ANALYSIS FOR 410; comment_1: 45X1 MAP ACROSS EDGE IN THE comment_2: HORIZONTAL DEFLECTION DIRECTION. RT comment_3: UPLINK FOR CORRECTION. SEE GF QUEST comment_4: 3, SECT 1-2. ! linenum: 404.000 targname: ^ config: ^ opmode: ^ aperture: ^ sp_element: ^ num_exp: ^ time_per_exp: ^ priority: ^ param_1: X-SIZE=1, param_2: Y-SIZE=45, param_3: SPACING=0.0486, param_4: X=2.83, param_5: Y=2.83, req_1: RT ANALYSIS FOR 410; comment_1: 1X45 MAP ACROSS VERT EDGE; IN THE comment_2: HORIZONTAL DEFLECTION DIRECTION. RT comment_3: UPLINK FOR CORRECTION. SEE GF QUEST comment_4: 3, SECT 1-2. ! linenum: 410.000 targname: HD49798 config: ^ opmode: ACQ num_exp: ^ time_per_exp: 10S s_to_n: 6 fluxnum_1: 1 priority: ^ req_1: INT ACQ FOR 412; comment_1: FGS IN COARSE TRACK. ! linenum: 412.000 targname: ^ config: ^ opmode: SINGLE aperture: 10.0 sp_element: F160LP num_exp: ^ time_per_exp: 250S s_to_n: 1000 s_to_n_time: 1S fluxnum_1: 1 priority: ^ param_1: SAMPLE-TIME=1, param_2: DATA-FORMAT=LONGWORD, param_3: READ-AT=TARGET, req_1: POS TARG +3.467198, -3.602574; req_2: SPATIAL SCAN SINGLE-EXP; req_3: INT ACQ FOR 420; comment_1: READ BEAM ON +HORIZ EDGE FROM LINE comment_2: 403. STEP STAR ACROSS EDGE. FGS IN comment_3: COARSE TRACK. ! linenum: 420.000 targname: ^ config: ^ opmode: SINGLE aperture: 10.0 sp_element: F160LP num_exp: ^ time_per_exp: 600S s_to_n: 50 s_to_n_time: 0.001S fluxnum_1: 1 priority: ^ param_1: SAMPLE-TIME=1, param_2: DATA-FORMAT=WORD, param_3: READ-AT=TARGET, req_1: NON-INT; req_2: POS TARG +3.467198, -3.602574; req_3: RT ANALYSIS; comment_1: NO STR; STAR AT POS TARG DETERMINED comment_2: FROM STEP/DWELL (LINE 412); READ-BEAM comment_3: ON +H EDGE (LINE 403). FGS IN COARSE comment_4: TRACK. ! linenum: 421.000 targname: DARK config: S/C opmode: DATA aperture: NONE num_exp: ^ time_per_exp: ^ priority: ^ param_1: FORMAT=FN, req_1: PAR WITH 420; req_2: RT ANALYSIS; comment_1: GUIDING FGS IN COARSE TRACK. PROVIDE comment_2: GUIDING FGS TELEMETRY. ! linenum: 430.000 targname: ^ config: HSP/VIS opmode: SINGLE aperture: 10.0 sp_element: F160LP num_exp: ^ time_per_exp: 150S s_to_n: 50 s_to_n_time: 0.001S fluxnum_1: 1 priority: ^ param_1: SAMPLE-TIME=0.001, param_2: DATA-FORMAT=WORD, req_1: RT ANALYSIS; comment_1: NO STR; STAR CENTERED IN APERTURE. comment_2: READ-BEAM CENTERED IN APERTURE. FGS comment_3: IN COARSE TRACK. ! linenum: 431.000 targname: DARK config: S/C opmode: DATA aperture: NONE num_exp: ^ time_per_exp: ^ priority: ^ param_1: FORMAT=FN, req_1: PAR WITH 430; req_2: RT ANALYSIS; comment_1: GUIDING FGS IN COARSE TRACK. PROVIDE comment_2: GUIDING FGS TELEMETRY. ! linenum: 442.000 targname: HD49798 config: HSP/VIS opmode: SINGLE aperture: 10.0 sp_element: F160LP num_exp: ^ time_per_exp: 250S s_to_n: 1000 s_to_n_time: 1S fluxnum_1: 1 priority: 1 param_1: SAMPLE-TIME=1, param_2: DATA-FORMAT=LONGWORD, param_3: READ-AT=TARGET, req_1: POS TARG +3.602574, +3.467198; req_2: SPATIAL SCAN SINGLE-EXP; req_3: INT ACQ FOR 450; comment_1: READ BEAM ON +VERT EDGE FROM LINE comment_2: 404. STEP STAR ACROSS EDGE. FGS IN comment_3: COARSE TRACK. ! linenum: 450.000 targname: ^ config: ^ opmode: ^ aperture: ^ sp_element: ^ num_exp: ^ time_per_exp: 600S 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: RT ANALYSIS; req_3: POS TARG +3.602574, +3.467198; comment_1: NO STR; STAR AT POS TARG DETEERMINED comment_2: SETP/DWELL (LINE 442). READ-BEAM ON comment_3: +V EDGE (LINE 404). FGS IN COARSE comment_4: TRACK. ! linenum: 451.000 targname: DARK config: S/C opmode: DATA aperture: NONE num_exp: ^ time_per_exp: ^ priority: 1 param_1: FORMAT=FN, req_1: PAR WITH 450; req_2: RT ANALYSIS; comment_1: GUIDING FGS IN COARSE TRACK. PROVIDE comment_2: GUIDING FGS TELEMETRY. ! ! end of exposure logsheet scan_data: line_list: 12,412 fgs_scan: N cont_dwell: D dwell_pnts: 21 dwell_secs: 2.00 scan_width: 0.0000 scan_length: 1.0000 sides_angle: 0.0000 number_lines: 1 scan_rate: 0.0000 first_line_pa: 43.9030 scan_frame: S/C len_offset: 0.5000 wid_offset: 0.0000 ! line_list: 42,442 fgs_scan: N cont_dwell: D dwell_pnts: 21 dwell_secs: 2.00 scan_width: 0.0000 scan_length: 1.0000 sides_angle: 0.0000 number_lines: 1 scan_rate: 0.0000 first_line_pa: 133.9030 scan_frame: S/C len_offset: 0.5000 wid_offset: 0.0000 ! ! end of scan data