! File: 2777C.PROP ! Database: PEPDB ! Date: 17-FEB-1994:12:32:55 coverpage: title_1: OVERLAPPING PLATE FIELD DISTORTION CALIBRATION AST-SV-02-DELTA-PLAN sci_cat: N/A proposal_for: SV/AST pi_title: PROF. pi_fname: WILLIAM pi_mi: H. pi_lname: JEFFERYS pi_inst: UNIVERSITY OF TEXAS pi_country: USA pi_phone: (512)471-1455 keywords_1: FINE GUIDANCE SENSORS, FGS, CALIBRATION, DISTORTION hours_pri: 20.00 num_pri: 53 fgs: Y pi_position: PROFESSOR ! end of coverpage abstract: line_1: The goal of these activities is to determine the optical field line_2: angle distortions of the three FGS units to within an arbitrary line_3: scale factor, with a level of accuracy sufficient to support line_4: an overall astrometry error budget of +/- 0.002 arcseconds rms. line_5: The actual solutions will provide the Project Data Base with line_6: the significant terms, their values, and their covariances line_7: including errors, which may then be applied to general FGS line_8: observations to reduce them for field angle distortions, line_9: except scale, alignment, and color corrections. line_11: This proposal consists of five parts, one to calibrate each line_12: FGS unit, one to transfer plate scale information between ! ! end of abstract general_form_proposers: lname: JEFFERYS fname: WILLIAM title: DR. mi: H. inst: UNIVERSITY OF TEXAS country: USA ! lname: BENEDICT fname: GEORGE title: DR. mi: F. inst: UNIVERSITY OF TEXAS country: USA ! lname: DUNCOMBE fname: RAYNOR title: DR. mi: L. inst: UNIVERSITY OF TEXAS country: USA ! lname: HEMENWAY fname: PAUL title: DR. mi: D. inst: UNIVERSITY OF TEXAS country: USA ! lname: SHELUS fname: PETER title: DR. mi: S. inst: UNIVERSITY OF TEXAS country: USA ! lname: FRANZ fname: OTTO title: DR. mi: G. inst: LOWELL OBSERVATORY country: USA ! lname: FREDRICK fname: LAURENCE title: DR. mi: W. inst: UNIVERSITY OF VIRGINIA country: USA ! lname: VAN ALTENA fname: WILLIAM title: DR. mi: F. inst: YALE UNIVERSITY country: USA ! ! end of general_form_proposers block general_form_text: question: 2 section: 1 line_1: This calibration will provide the terms of the field distortions line_2: for the three FGS units to allow milliarcsecond astrometry to line_3: be performed. The observations and reductions form a set of line_4: calibrations which must be performed in order for routine line_5: astrometric observations to be reduced at the milliarcsecond line_6: level. Because the nature of the long and short spatial line_7: frequencies is predicted from pre-launch measurements, but line_8: because the final in-orbit values are not known, a sufficient line_9: number of stars with selected relative positions must be line_10: chosen to adequately cover the distortions expected yet line_11: give a sample of other spatial frequencies which may occur. line_12: The final selection will depend on these factors, and depend line_13: on the availability of stars and on the particular dates that line_14: are scheduled for the observations. The requirement of an line_15: adequate number of stars between 9th and 15th magnitudes, line_16: and consideration of sun-angle roll constraints during the SV line_17: period, has led to the choice of NGC5617 as the observation line_18: field. NGC5617 is at high declination, which makes it line_19: accessable most of the year, regardless of the HST orbital line_20: orientation. However, sun-angle roll constraints limit the line_21: availability of this target to particular times (see #5). ! question: 3 section: 1 line_1: Acquire guide stars in the FGS units selected for guiding. line_2: With each position and orientation of the FGS, measure from 20-35 line_3: stars (including check stars) in the astrometry FGS with the line_4: yellow filter. The exact number of line_5: stars measured will depend on the date of observation and the line_6: offset used (see below). The stars have been chosen to be line_7: well distributed about the FGS FOV. The offsets described below line_8: will move the stars about the FGS FOV, sampling the distortions line_9: at different positions. Guide stars should be changed as needed. ! question: 3 section: 2 line_1: For Part 1 and Delta-Plan, successively offset target #1 relative line_2: to the center of the FGS FOV, as described below. Here (x,y) means line_3: an offset of x arcseconds in the FGS X direction and y arcseconds in line_4: the FGS Y direction. The offsets for FGS #2 are (0,0), (60,0), (-60,0), line_5: (40,60), (40,-60), (-40,60), (-40,-60), (120,-10), (-120,-10), line_6: (240,-40), (-240,-40), (360,-60),(-360,-60), (360,-120), (-360,-120). line_7: At each of the pointings, measure the stars from the target list that line_8: fall in the FGS FOV. Some stars will leave the FOV at each new line_9: pointing and others will enter it. It is estimated that an average line_10: of 25 stars will be within the FGS FOV at each pointing. line_12: Some pointings, particularly the last 6 in the above list and line_13: especially the last 4, will have fewer than the average number line_14: of stars and can be scheduled during orbits that will have line_15: shorter observational time. The first 7 of the pointings in line_16: the list should be scheduled so that the maximum number of stars line_17: can be measured. ! question: 3 section: 3 line_1: Hughes Danbury Optical Systems, Inc. has suggested that two line_2: additional measurements be made with FGS #2 (Part 1 and Delta, line_3: Plan) as follows: With the FGS centered on target #1, line_4: (e.g., offset=(0,0)), roll the spacecraft about line_5: the center of the astrometry FGS in the amounts of +30 degrees line_6: and -30 degrees, respectively, and measure all the stars that are line_7: within the FGS FOV at these two orientations. Analysis line_8: shows that these two additional observation sets line_9: will substantially improve the accuracy of the Optical Field line_10: Angle Distortion (OFAD) algorithm, and they are essential line_11: to obtaining good distortion coefficients. line_12: This proposal is designed so that these additional measurements line_13: can be made either at nominal roll 30 days before and after line_14: the remaining observations, or at off-nominal roll during line_15: the 60-day window centered on the remaining observations. ! question: 3 section: 4 line_1: For Parts 2 and 3, a similar but shorter sequence of observations is line_2: performed using FGS units #3 and #1 as the astrometry line_3: instrument, to obtain data on these units. This is the "Super- line_4: Mini-OFAD." The offsets are (0,0), (0,60), (0,-60), (60,0), and . line_5: (-60,0). The entire sequence of observations for all 3 FGS units line_6: is given in Parts 1 (FGS 2), 2 (FGS 3) and 3 (FGS 1). line_8: Part 4 contains measurements to link the plate scales in the three line_9: FGS units. It contains no offsets and consists of lines 801-804. line_11: The priority of measurements is: FGS 2 has highest line_12: priority, FGS 3 has next-highest priority, and FGS 1 line_13: has lowest priority. line_15: The Parts 1-4 of the main proposal constitute the line_16: Minimum Plan for the OFAD. The observations on FGS #2 may be line_17: repeated later in SV as provided in the Delta Plan proposal. ! question: 4 section: 1 line_1: Ground-based limits will be reached in NGC5617 at approximately line_2: the 0.01 arcsec level. ! question: 5 section: 1 line_1: Off-nominal roll may be required to execute Exposure Logsheet lines line_2: 501-710. Scheduling can eliminate the use of off-nominal roll. line_4: The procedures described in #3 (Exposure Logsheet lines 501-804) are line_5: Minimum Plan. Parts 1, 2, 3 and 4 are linked. They are designed so that line_6: the main part of Part 1 can be executed about Apr 15, 1991, Part 2 at line_7: about Dec 25, 1990, and Part 3 at about Dec 25, 1990. Portions of line_8: Part 4 are scheduled near both Dec 25, 1990 and Apr 15, 1991. line_10: The repeat of Part 1 is Delta Plan, and if opted for should be line_11: performed relatively late in SV. The approximate date for the Delta line_12: Plan proposal is Jun 15, 1991. The exposure logsheet lines for the line_13: Delta Plan proposal are lines 901-938. The Delta Plan and Plate Scale line_14: Transfer target lists are different from those for Parts 1-3. line_16: Because of the critical nature of this test and the length of the line_17: observations, special measures should be taken to protect the data line_18: (eg., the data may be written to the onboard tape recorder so that line_19: they can be recovered in case of transmission errors. ! question: 5 section: 2 line_1: The observations in Part 1 and the Delta Plan must be scheduled line_2: between approximately Feb 17, 1991 and Aug 20, 1991, line_3: otherwise sun-angle roll constraints will make the required 30 degree line_4: rolls impossible. If it is necessary to schedule a full OFAD at other line_5: times of the year, a different target must be used. ! question: 5 section: 3 line_1: To reduce the effects of thermal jitter, care in selecting guide stars line_2: is essential. When FGS#2 is the astrometer, the following conditions line_3: should be satisfied: (1) The dominant guide star of each pair should line_4: be in FGS#3, and the roll star in FGS#1. (2) If possible, the dominant line_5: guide star should be chosen as close to FGS#2 as feasable (it is best line_6: if in the half of FGS#3 that is closest to FGS#2.) (3) The secondary line_7: guide star should be chosen so that the line between the two guide line_8: stars is as nearly parallel to the ST V2 axis as possible. line_10: When FGS#3 is the astrometer, the following conditions should be line_11: satisfied: (1) The dominant guide star of each pair should be in line_12: FGS#2, and the roll star in FGS#1. (2) If possible, the dominant line_13: guide star should be chosen as close to FGS#3 as feasable (it is line_14: best if in the half of FGS#2 that is closest to FGS#3.) (3) The line_15: secondary guide star should be chosen so that the line between the line_16: two guide stars is as nearly parallel to the ST V2 axis as possible. line_18: No improvement is possible when FGS#1 is the astrometer. ! question: 5 section: 4 line_1: For some pointings, there may be more stars on the list than can line_2: be measured during one orbit. The order of the stars in the target line_3: list and the arrangement of the observations on the exposure line_4: logsheet have been arranged so that a pointing can be completed line_5: in the following orbit if necessary. It is best, however, to line_6: complete the observations for one pointing in a single orbit line_7: whenever possible. line_9: Part 1 has been designed to be executed on or about Apr 15, 1991, line_10: Part 2 at about Dec 25, 1990, and Part 3 at about Dec 25, 1990. line_11: Lines 801-802 of Part 4 should be executed at about line_12: Dec 25, 1990. Lines 803-804 of Part 4 should be executed line_13: at about Apr 15, 1991. line_15: The Delta Plan proposal is designed for execution on or about line_16: Jun 15, 1991. It may be necessary to resubmit the proposals line_17: and update the target lists should significant schedule slips be line_18: encountered. ! question: 6 section: 1 line_1: N/A ! question: 7 section: 1 line_1: Data reduction will be performed using the ADRS within the SDAS line_2: system at STScI with other reductions being performed in Austin. line_3: The data will be put into SDAS Table format for analysis using the line_4: GaussFit module. Initial values of the field distortion parameters line_6: will come from AST-OV-11. The scale value used will also come line_7: from that OV calibration. The initial model will come from the line_8: physical model of the FGS as a start, with the results of line_9: AST-OV-11 folded in for the initial guesses at the parameter line_10: values. Ground calibration of the short wavelength terms will line_11: be examined for consistency with the data. The data will be line_12: insufficient to derive a complete map of the short wavelength line_13: variations. Different polynomial and/or spline approximations line_14: will be tried to determine the most appropriate representation of line_15: the data. Sufficient data should be available to give a good line_16: solution. The covariances and residuals will be examined to line_17: determine a "best fit" solution. The terms, their values, line_18: their errors, and their covariances will be put into the line_19: Project Data Base for Standard Astrometric observations. line_20: This calibration requires the results from AST-OV-03 and line_21: AST-OV-11. ! question: 8 section: 1 line_1: FGS numbers refer to BAY NUMBERS. The initial calibration of line_3: NGC 188 for the OV Mini-OFAD has been done by line_4: William F. van Altena at Yale using a series of photographic line_5: plates taken during the past 50 years. He used 4-meter line_6: plates to determine modern epoch relative positions and scale. line_7: This work was funded in part by a grant from STScI for line_8: the initial scale and field distortion calibrations. ! question: 8 section: 2 line_1: The results from this procedure, which will be line_2: resident on the Calibration Data Base, will be required for line_3: virtually every HST astrometry observation made with the FGS. line_4: Perkin-Elmer will undertake these observations at the onset of line_5: OV (AST-OV-11). The derivation of the astrometric parameters line_6: from these data for the CDB will be coordinated with line_7: Perkin-Elmer. ! question: 9 section: 1 line_1: N/A ! question: 10 section: 1 line_1: GaussFit will be available in Austin and at STScI. At least one line_2: Astrometry Team representative, and usually two to three, will line_3: be available at STScI or GSFC during the tests to analyze the line_4: data. ! !end of general form text general_form_address: lname: JEFFERYS fname: WILLIAM mi: H. title: DR. category: PI inst: UNIVERSITY OF TEXAS addr_1: DEPARTMENT OF ASTRONOMY city: AUSTIN state: TX zip: 78712 country: USA phone: (512)471-1455 telex: TEXASTRO ! lname: VAN ALTENA fname: WILLIAM mi: F. title: DR. category: CON inst: YALE UNIVERSITY addr_1: DEPARTMENT OF ASTRONOMY addr_2: PO BOX 6666 addr_3: 260 WHITNEY AVENUE city: NEW HAVEN state: CT zip: 06511 country: USA phone: (203)432-3020 ! ! end of general_form_address records fixed_targets: targnum: 1 name_1: OF1 name_2: (VANALTENA 312) descr_1: REFERENCE STAR FOR OFAD pos_1: RA = 216.4917697D +/- 0.1", pos_2: DEC = -60.5101253D +/- 0.1" equinox: 1950 fluxnum_1: 1 fluxval_1: V = 10.13 +/- 0.1 fluxnum_2: 2 fluxval_2: B = 10.3 +/- 0.1 ! targnum: 2 name_1: OF2-REF name_2: (VANALTENA 390) descr_1: REFERENCE STAR FOR OFAD pos_1: RA = 216.5392278D +/- 0.1", pos_2: DEC = -60.5587373D +/- 0.1" equinox: 1950 fluxnum_1: 1 fluxval_1: V = 12.9 +/- 0.1 fluxnum_2: 2 fluxval_2: B = 13.4 +/- 0.1 ! targnum: 3 name_1: OF3-REF name_2: (VANALTENA 257) descr_1: REFERENCE STAR FOR OFAD pos_1: RA = 216.4326947D +/- 0.1", pos_2: DEC = -60.4826003D +/- 0.1" equinox: 1950 fluxnum_1: 1 fluxval_1: V = 10.64 +/- 0.1 fluxnum_2: 2 fluxval_2: B = 12.36 +/- 0.1 ! targnum: 4 name_1: OF4-REF name_2: (VANALTENA 374) descr_1: REFERENCE STAR FOR OFAD pos_1: RA = 216.4900756D +/- 0.1", pos_2: DEC = -60.5496784D +/- 0.1" equinox: 1950 fluxnum_1: 1 fluxval_1: V = 12.69 +/- 0.1 fluxnum_2: 2 fluxval_2: B = 13.13 +/- 0.1 ! targnum: 5 name_1: OF5-REF name_2: (VANALTENA 402) descr_1: REFERENCE STAR FOR OFAD pos_1: RA = 216.4501886D +/- 0.1", pos_2: DEC = -60.5685453D +/- 0.1" equinox: 1950 fluxnum_1: 1 fluxval_1: V = 9.73 +/- 0.1 fluxnum_2: 2 fluxval_2: B = 9.83 +/- 0.1 ! targnum: 6 name_1: OF6-REF name_2: (VANALTENA 371) descr_1: REFERENCE STAR FOR OFAD pos_1: RA = 216.5573586D +/- 0.1", pos_2: DEC = -60.5456445D +/- 0.1" equinox: 1950 fluxnum_1: 1 fluxval_1: V = 13.63 +/- 0.1 fluxnum_2: 2 fluxval_2: B = 14.28 +/- 0.1 ! targnum: 7 name_1: OF7-REF name_2: (VANALTENA 378) descr_1: REFERENCE STAR FOR OFAD pos_1: RA = 216.6356699D +/- 0.1", pos_2: DEC = -60.5525994D +/- 0.1" equinox: 1950 fluxnum_1: 1 fluxval_1: V = 13.03 +/- 0.1 fluxnum_2: 2 fluxval_2: B = 14.24 +/- 0.1 ! targnum: 8 name_1: OF8-REF name_2: (VANALTENA 433) descr_1: REFERENCE STAR FOR OFAD pos_1: RA = 216.6228149D +/- 0.1", pos_2: DEC = -60.5944173D +/- 0.1" equinox: 1950 fluxnum_1: 1 fluxval_1: V = 9.11 +/- 0.1 fluxnum_2: 2 fluxval_2: B = 9.4 +/- 0.1 ! targnum: 9 name_1: OF9-REF name_2: (VANALTENA 437) descr_1: REFERENCE STAR FOR OFAD pos_1: RA = 216.6511618D +/- 0.1", pos_2: DEC = -60.6023752D +/- 0.1" equinox: 1950 fluxnum_1: 1 fluxval_1: V = 13.19 +/- 0.1 fluxnum_2: 2 fluxval_2: B = 14.06 +/- 0.1 ! targnum: 10 name_1: OF10-REF name_2: (VANALTENA 460) descr_1: REFERENCE STAR FOR OFAD pos_1: RA = 216.5752437D +/- 0.1", pos_2: DEC = -60.6274753D +/- 0.1" equinox: 1950 fluxnum_1: 1 fluxval_1: V = 8.87 +/- 0.1 fluxnum_2: 2 fluxval_2: B = 10.25 +/- 0.1 ! targnum: 11 name_1: OF11-REF name_2: (VANALTENA 476) descr_1: REFERENCE STAR FOR OFAD pos_1: RA = 216.6199749D +/- 0.1", pos_2: DEC = -60.6409084D +/- 0.1" equinox: 1950 fluxnum_1: 1 fluxval_1: V = 12.6 +/- 0.1 fluxnum_2: 2 fluxval_2: B = 13.2 +/- 0.1 ! targnum: 12 name_1: OF12-REF name_2: (VANALTENA 523) descr_1: REFERENCE STAR FOR OFAD pos_1: RA = 216.643628D +/- 0.1", pos_2: DEC = -60.6855564D +/- 0.1" equinox: 1950 fluxnum_1: 1 fluxval_1: V = 12.06 +/- 0.1 fluxnum_2: 2 fluxval_2: B = 12.41 +/- 0.1 ! targnum: 13 name_1: OF13-REF name_2: (VANALTENA 463) descr_1: REFERENCE STAR FOR OFAD pos_1: RA = 216.7190469D +/- 0.1", pos_2: DEC = -60.6275552D +/- 0.1" equinox: 1950 fluxnum_1: 1 fluxval_1: V = 12.98 +/- 0.1 fluxnum_2: 2 fluxval_2: B = 13.43 +/- 0.1 ! targnum: 14 name_1: OF14-REF name_2: (VANALTENA 504) descr_1: REFERENCE STAR FOR OFAD pos_1: RA = 216.5191979D +/- 0.1", pos_2: DEC = -60.6670945D +/- 0.1" equinox: 1950 fluxnum_1: 1 fluxval_1: V = 11.81 +/- 0.1 fluxnum_2: 2 fluxval_2: B = 12.18 +/- 0.1 ! targnum: 15 name_1: OF15-REF name_2: (VANALTENA 449) descr_1: REFERENCE STAR FOR OFAD pos_1: RA = 216.6125818D +/- 0.1", pos_2: DEC = -60.6139515D +/- 0.1" equinox: 1950 fluxnum_1: 1 fluxval_1: V = 12.32 +/- 0.1 fluxnum_2: 2 fluxval_2: B = 12.61 +/- 0.1 ! targnum: 16 name_1: OF16-REF name_2: (VANALTENA 424) descr_1: REFERENCE STAR FOR OFAD pos_1: RA = 216.7026579D +/- 0.1", pos_2: DEC = -60.5824294D +/- 0.1" equinox: 1950 fluxnum_1: 1 fluxval_1: V = 12.6 +/- 0.1 fluxnum_2: 2 fluxval_2: B = 13.91 +/- 0.1 ! targnum: 17 name_1: OF17-REF name_2: (VANALTENA 430) descr_1: REFERENCE STAR FOR OFAD pos_1: RA = 216.5209778D +/- 0.1", pos_2: DEC = -60.5909765D +/- 0.1" equinox: 1950 fluxnum_1: 1 fluxval_1: V = 13.08 +/- 0.1 fluxnum_2: 2 fluxval_2: B = 13.75 +/- 0.1 ! targnum: 18 name_1: OF18-REF name_2: (VANALTENA 406) descr_1: REFERENCE STAR FOR OFAD pos_1: RA = 216.4967098D +/- 0.1", pos_2: DEC = -60.5712315D +/- 0.1" equinox: 1950 fluxnum_1: 1 fluxval_1: V = 12.18 +/- 0.1 fluxnum_2: 2 fluxval_2: B = 12.54 +/- 0.1 ! targnum: 19 name_1: OF19-REF name_2: (VANALTENA 360) descr_1: REFERENCE STAR FOR OFAD pos_1: RA = 216.5995178D +/- 0.1", pos_2: DEC = -60.5338653D +/- 0.1" equinox: 1950 fluxnum_1: 1 fluxval_1: V = 12.5 +/- 0.1 fluxnum_2: 2 fluxval_2: B = 12.87 +/- 0.1 ! targnum: 20 name_1: OF20-REF name_2: (VANALTENA 367) descr_1: REFERENCE STAR FOR OFAD pos_1: RA = 216.5131056D +/- 0.1", pos_2: DEC = -60.5435953D +/- 0.1" equinox: 1950 fluxnum_1: 1 fluxval_1: V = 11.68 +/- 0.1 fluxnum_2: 2 fluxval_2: B = 13.56 +/- 0.1 ! targnum: 21 name_1: OF21-REF name_2: (VANALTENA 333) descr_1: REFERENCE STAR FOR OFAD pos_1: RA = 216.5938956D +/- 0.1", pos_2: DEC = -60.5199603D +/- 0.1" equinox: 1950 fluxnum_1: 1 fluxval_1: V = 12.98 +/- 0.1 fluxnum_2: 2 fluxval_2: B = 13.64 +/- 0.1 ! targnum: 22 name_1: OF22-REF name_2: (VANALTENA 315) descr_1: REFERENCE STAR FOR OFAD pos_1: RA = 216.6023128D +/- 0.1", pos_2: DEC = -60.5120245D +/- 0.1" equinox: 1950 fluxnum_1: 1 fluxval_1: V = 12.64 +/- 0.1 fluxnum_2: 2 fluxval_2: B = 13.18 +/- 0.1 ! targnum: 23 name_1: OF23-REF name_2: (VANALTENA 373) descr_1: REFERENCE STAR FOR OFAD pos_1: RA = 216.4616756D +/- 0.1", pos_2: DEC = -60.5495634D +/- 0.1" equinox: 1950 fluxnum_1: 1 fluxval_1: V = 12.15 +/- 0.1 fluxnum_2: 2 fluxval_2: B = 12.88 +/- 0.1 ! targnum: 24 name_1: OF24-REF name_2: (VANALTENA 334) descr_1: REFERENCE STAR FOR OFAD pos_1: RA = 216.5461198D +/- 0.1", pos_2: DEC = -60.5207903D +/- 0.1" equinox: 1950 fluxnum_1: 1 fluxval_1: V = 10.48 +/- 0.1 fluxnum_2: 2 fluxval_2: B = 11.19 +/- 0.1 ! targnum: 25 name_1: OF25-REF name_2: (VANALTENA 355) descr_1: REFERENCE STAR FOR OFAD pos_1: RA = 216.4891186D +/- 0.1", pos_2: DEC = -60.5322945D +/- 0.1" equinox: 1950 fluxnum_1: 1 fluxval_1: V = 11.31 +/- 0.1 fluxnum_2: 2 fluxval_2: B = 11.66 +/- 0.1 ! targnum: 26 name_1: OF26-REF name_2: (VANALTENA 335) descr_1: REFERENCE STAR FOR OFAD pos_1: RA = 216.5014247D +/- 0.1", pos_2: DEC = -60.5207384D +/- 0.1" equinox: 1950 fluxnum_1: 1 fluxval_1: V = 10.34 +/- 0.1 fluxnum_2: 2 fluxval_2: B = 10.67 +/- 0.1 ! targnum: 27 name_1: OF27-REF name_2: (VANALTENA 304) descr_1: REFERENCE STAR FOR OFAD pos_1: RA = 216.5205155D +/- 0.1", pos_2: DEC = -60.5058165D +/- 0.1" equinox: 1950 fluxnum_1: 1 fluxval_1: V = 11.9 +/- 0.1 fluxnum_2: 2 fluxval_2: B = 12.34 +/- 0.1 ! targnum: 28 name_1: OF28-REF name_2: (VANALTENA 358) descr_1: REFERENCE STAR FOR OFAD pos_1: RA = 216.4196377D +/- 0.1", pos_2: DEC = -60.5332123D +/- 0.1" equinox: 1950 fluxnum_1: 1 fluxval_1: V = 11.71 +/- 0.1 fluxnum_2: 2 fluxval_2: B = 12.19 +/- 0.1 ! targnum: 29 name_1: OF29-REF name_2: (VANALTENA 321) descr_1: REFERENCE STAR FOR OFAD pos_1: RA = 216.4781785D +/- 0.1", pos_2: DEC = -60.5159003D +/- 0.1" equinox: 1950 fluxnum_1: 1 fluxval_1: V = 12.44 +/- 0.1 fluxnum_2: 2 fluxval_2: B = 12.92 +/- 0.1 ! targnum: 30 name_1: OF30-REF name_2: (VANALTENA 285) descr_1: REFERENCE STAR FOR OFAD pos_1: RA = 216.5335047D +/- 0.1", pos_2: DEC = -60.4954315D +/- 0.1" equinox: 1950 fluxnum_1: 1 fluxval_1: V = 13.29 +/- 0.1 fluxnum_2: 2 fluxval_2: B = 13.73 +/- 0.1 ! targnum: 31 name_1: OF31-REF name_2: (VANALTENA 337) descr_1: REFERENCE STAR FOR OFAD pos_1: RA = 216.4311077D +/- 0.1", pos_2: DEC = -60.5222223D +/- 0.1" equinox: 1950 fluxnum_1: 1 fluxval_1: V = 12.4 +/- 0.1 fluxnum_2: 2 fluxval_2: B = 12.8 +/- 0.1 ! targnum: 32 name_1: OF32-REF name_2: (VANALTENA 280) descr_1: REFERENCE STAR FOR OFAD pos_1: RA = 216.5045347D +/- 0.1", pos_2: DEC = -60.4936853D +/- 0.1" equinox: 1950 fluxnum_1: 1 fluxval_1: V = 12.58 +/- 0.1 fluxnum_2: 2 fluxval_2: B = 13 +/- 0.1 ! targnum: 33 name_1: OF33-REF name_2: (VANALTENA 292) descr_1: REFERENCE STAR FOR OFAD pos_1: RA = 216.4670555D +/- 0.1", pos_2: DEC = -60.4992523D +/- 0.1" equinox: 1950 fluxnum_1: 1 fluxval_1: V = 11.55 +/- 0.1 fluxnum_2: 2 fluxval_2: B = 11.96 +/- 0.1 ! targnum: 34 name_1: OF34-REF name_2: (VANALTENA 260) descr_1: REFERENCE STAR FOR OFAD pos_1: RA = 216.4989666D +/- 0.1", pos_2: DEC = -60.4843784D +/- 0.1" equinox: 1950 fluxnum_1: 1 fluxval_1: V = 12.47 +/- 0.1 fluxnum_2: 2 fluxval_2: B = 12.92 +/- 0.1 ! targnum: 35 name_1: OF35-REF name_2: (VANALTENA 236) descr_1: REFERENCE STAR FOR OFAD pos_1: RA = 216.5522785D +/- 0.1", pos_2: DEC = -60.4695215D +/- 0.1" equinox: 1950 fluxnum_1: 1 fluxval_1: V = 11.49 +/- 0.1 fluxnum_2: 2 fluxval_2: B = 11.83 +/- 0.1 ! targnum: 36 name_1: OF36-REF name_2: (VANALTENA 298) descr_1: REFERENCE STAR FOR OFAD pos_1: RA = 216.4072266D +/- 0.1", pos_2: DEC = -60.5022865D +/- 0.1" equinox: 1950 fluxnum_1: 1 fluxval_1: V = 13.28 +/- 0.1 fluxnum_2: 2 fluxval_2: B = 14.03 +/- 0.1 ! targnum: 37 name_1: OF37-REF name_2: (VANALTENA 246) descr_1: REFERENCE STAR FOR OFAD pos_1: RA = 216.4900805D +/- 0.1", pos_2: DEC = -60.4751434D +/- 0.1" equinox: 1950 fluxnum_1: 1 fluxval_1: V = 12.59 +/- 0.1 fluxnum_2: 2 fluxval_2: B = 12.97 +/- 0.1 ! targnum: 38 name_1: OF38-REF name_2: (VANALTENA 228) descr_1: REFERENCE STAR FOR OFAD pos_1: RA = 216.5216916D +/- 0.1", pos_2: DEC = -60.4643815D +/- 0.1" equinox: 1950 fluxnum_1: 1 fluxval_1: V = 10.38 +/- 0.1 fluxnum_2: 2 fluxval_2: B = 12.05 +/- 0.1 ! targnum: 39 name_1: OF39-REF name_2: (VANALTENA 204) descr_1: REFERENCE STAR FOR OFAD pos_1: RA = 216.5039216D +/- 0.1", pos_2: DEC = -60.4496503D +/- 0.1" equinox: 1950 fluxnum_1: 1 fluxval_1: V = 12.3 +/- 0.1 fluxnum_2: 2 fluxval_2: B = 12.64 +/- 0.1 ! targnum: 40 name_1: OF40-REF name_2: (VANALTENA 210) descr_1: REFERENCE STAR FOR OFAD pos_1: RA = 216.4622997D +/- 0.1", pos_2: DEC = -60.4545023D +/- 0.1" equinox: 1950 fluxnum_1: 1 fluxval_1: V = 12.21 +/- 0.1 fluxnum_2: 2 fluxval_2: B = 12.67 +/- 0.1 ! targnum: 41 name_1: OF41-REF name_2: (VANALTENA 237) descr_1: REFERENCE STAR FOR OFAD pos_1: RA = 216.3565834D +/- 0.1", pos_2: DEC = -60.4705203D +/- 0.1" equinox: 1950 fluxnum_1: 1 fluxval_1: V = 12.83 +/- 0.1 fluxnum_2: 2 fluxval_2: B = 13.51 +/- 0.1 ! targnum: 42 name_1: OF42-REF name_2: (VANALTENA 149) descr_1: REFERENCE STAR FOR OFAD pos_1: RA = 216.5284577D +/- 0.1", pos_2: DEC = -60.4134823D +/- 0.1" equinox: 1950 fluxnum_1: 1 fluxval_1: V = 10.01 +/- 0.1 fluxnum_2: 2 fluxval_2: B = 10.24 +/- 0.1 ! targnum: 43 name_1: OF43-REF name_2: (VANALTENA 190) descr_1: REFERENCE STAR FOR OFAD pos_1: RA = 216.4258765D +/- 0.1", pos_2: DEC = -60.4411995D +/- 0.1" equinox: 1950 fluxnum_1: 1 fluxval_1: V = 11.38 +/- 0.1 fluxnum_2: 2 fluxval_2: B = 13.12 +/- 0.1 ! targnum: 44 name_1: OF44-REF name_2: (VANALTENA 164) descr_1: REFERENCE STAR FOR OFAD pos_1: RA = 216.4801315D +/- 0.1", pos_2: DEC = -60.4254153D +/- 0.1" equinox: 1950 fluxnum_1: 1 fluxval_1: V = 12.44 +/- 0.1 fluxnum_2: 2 fluxval_2: B = 12.91 +/- 0.1 ! targnum: 45 name_1: OF45-REF name_2: (VANALTENA 193) descr_1: REFERENCE STAR FOR OFAD pos_1: RA = 216.3711046D +/- 0.1", pos_2: DEC = -60.4443853D +/- 0.1" equinox: 1950 fluxnum_1: 1 fluxval_1: V = 11.54 +/- 0.1 fluxnum_2: 2 fluxval_2: B = 11.86 +/- 0.1 ! targnum: 46 name_1: OF46-REF name_2: (VANALTENA 152) descr_1: REFERENCE STAR FOR OFAD pos_1: RA = 216.4393146D +/- 0.1", pos_2: DEC = -60.4166895D +/- 0.1" equinox: 1950 fluxnum_1: 1 fluxval_1: V = 11.83 +/- 0.1 fluxnum_2: 2 fluxval_2: B = 12.22 +/- 0.1 ! targnum: 47 name_1: OF47-REF name_2: (VANALTENA 168) descr_1: REFERENCE STAR FOR OFAD pos_1: RA = 216.3863596D +/- 0.1", pos_2: DEC = -60.4268084D +/- 0.1" equinox: 1950 fluxnum_1: 1 fluxval_1: V = 12.3 +/- 0.1 fluxnum_2: 2 fluxval_2: B = 12.73 +/- 0.1 ! targnum: 48 name_1: OF48-REF name_2: (VANALTENA 127) descr_1: REFERENCE STAR FOR OFAD pos_1: RA = 216.4853065D +/- 0.1", pos_2: DEC = -60.3937245D +/- 0.1" equinox: 1950 fluxnum_1: 1 fluxval_1: V = 11.87 +/- 0.1 fluxnum_2: 2 fluxval_2: B = 13.18 +/- 0.1 ! targnum: 49 name_1: OF49-REF name_2: (VANALTENA 136) descr_1: REFERENCE STAR FOR OFAD pos_1: RA = 216.4376796D +/- 0.1", pos_2: DEC = -60.4009503D +/- 0.1" equinox: 1950 fluxnum_1: 1 fluxval_1: V = 13.16 +/- 0.1 fluxnum_2: 2 fluxval_2: B = 13.6 +/- 0.1 ! targnum: 50 name_1: OF50-REF name_2: (VANALTENA 161) descr_1: REFERENCE STAR FOR OFAD pos_1: RA = 216.3408226D +/- 0.1", pos_2: DEC = -60.4236184D +/- 0.1" equinox: 1950 fluxnum_1: 1 fluxval_1: V = 8.81 +/- 0.1 fluxnum_2: 2 fluxval_2: B = 10.74 +/- 0.1 ! targnum: 51 name_1: OF51-REF name_2: (VANALTENA 182) descr_1: REFERENCE STAR FOR OFAD pos_1: RA = 216.2548795D +/- 0.1", pos_2: DEC = -60.4335873D +/- 0.1" equinox: 1950 fluxnum_1: 1 fluxval_1: V = 11.86 +/- 0.1 fluxnum_2: 2 fluxval_2: B = 12.42 +/- 0.1 ! targnum: 52 name_1: OF52-REF name_2: (VANALTENA 110) descr_1: REFERENCE STAR FOR OFAD pos_1: RA = 216.3537045D +/- 0.1", pos_2: DEC = -60.3707045D +/- 0.1" equinox: 1950 fluxnum_1: 1 fluxval_1: V = 11.21 +/- 0.1 fluxnum_2: 2 fluxval_2: B = 12.67 +/- 0.1 ! targnum: 53 name_1: OF53-REF name_2: (VANALTENA 67) descr_1: REFERENCE STAR FOR OFAD pos_1: RA = 216.2778244D +/- 0.1", pos_2: DEC = -60.3172473D +/- 0.1" equinox: 1950 fluxnum_1: 1 fluxval_1: V = 8.62 +/- 0.1 fluxnum_2: 2 fluxval_2: B = 9 +/- 0.1 ! ! end of fixed targets ! No solar system records found ! No generic target records found exposure_logsheet: linenum: 10.000 sequence_1: DEFINE sequence_2: OFAD targname: OF2-REF config: FGS opmode: POS aperture: # sp_element: # num_exp: 1 time_per_exp: 10S s_to_n: 10 fluxnum_1: 1 priority: # param_1: DATA-RATE=32, param_2: ACQ-MODE = SEARCH req_1: DO FOR TARG 2-3; req_2: SEQ 10-11 NON-INT; comment_1: ONLY DO FOR STARS IN FOV. comment_2: EXPECT 2-3 STARS. comment_3: CHECK STARS ! linenum: 11.000 sequence_1: ^ targname: OF4-REF config: ^ opmode: ^ aperture: ^ sp_element: ^ num_exp: ^ time_per_exp: ^ s_to_n: ^ fluxnum_1: ^ priority: ^ param_1: ^ param_2: ^ req_1: DO FOR TARG 4-20; comment_1: ^ comment_2: EXPECT 10 STARS ON AVERAGE. comment_3: PROGRAM STARS ! linenum: 12.000 sequence_1: ^ targname: OF1 config: ^ opmode: ^ aperture: ^ sp_element: ^ num_exp: ^ time_per_exp: ^ s_to_n: ^ fluxnum_1: ^ priority: ^ param_1: ^ param_2: ^ req_1: DO FOR TARG 1-3; req_2: SEQ 12-13 NON-INT; comment_1: ^ comment_2: EXPECT 2-3 STARS. comment_3: CHECK STARS ! linenum: 13.000 sequence_1: ^ targname: OF21-REF config: ^ opmode: ^ aperture: ^ sp_element: ^ num_exp: ^ time_per_exp: ^ s_to_n: ^ fluxnum_1: ^ priority: ^ param_1: ^ param_2: ^ req_1: DO FOR TARG 21-37; comment_1: ^ comment_2: EXPECT 10 STARS ON AVERAGE. comment_3: PROGRAM STARS ! linenum: 14.000 sequence_1: ^ targname: OF1 config: ^ opmode: ^ aperture: ^ sp_element: ^ num_exp: ^ time_per_exp: ^ s_to_n: ^ fluxnum_1: ^ priority: ^ param_1: ^ param_2: ^ req_1: DO FOR TARG 1-3; req_2: SEQ 14-15 NON-INT; comment_1: ^ comment_2: EXPECT 2-3 STARS. comment_3: CHECK STARS ! linenum: 15.000 sequence_1: ^ targname: OF38-REF config: ^ opmode: ^ aperture: ^ sp_element: ^ num_exp: ^ time_per_exp: ^ s_to_n: ^ fluxnum_1: ^ priority: ^ param_1: ^ param_2: ^ req_1: DO FOR TARG 38-53; comment_1: ^ comment_2: EXPECT 10 STARS ON AVERAGE. comment_3: PROGRAM STARS ! linenum: 20.000 sequence_1: DEFINE sequence_2: OFAD1 targname: OF1 config: FGS opmode: POS aperture: # sp_element: # num_exp: 1 time_per_exp: 10S s_to_n: 10 fluxnum_1: 1 priority: # param_1: DATA-RATE=32, param_2: ACQ-MODE = SEARCH comment_1: CENTRAL CHECK STAR ! linenum: 901.000 sequence_1: USE OFAD1 aperture: 2 sp_element: F550W priority: 1 req_1: POS TARG 0,0; req_2: ORIENT 61D +/- 2D; req_4: CYCLE 0 / 901-938; comment_1: SPSS WILL REJECT MANY STARS comment_2: IN TARGET LIST BECAUSE THEY ARE comment_3: NOT IN THE PICKLE. THIS IS OK. comment_4: ON AVERAGE, ABOUT 30 STARS WILL comment_5: BE MEASURABLE AT ONE TIME. ! linenum: 902.000 sequence_1: USE OFAD aperture: 2 sp_element: F550W priority: 1 req_1: SAME POS FOR 902 AS 901; req_2: SAME ORIENT FOR 902 AS 901; req_3: SEQ 901-902 NO GAP; ! linenum: 903.000 sequence_1: USE OFAD1 aperture: 2 sp_element: F550W priority: 1 req_1: POS TARG 60,0; req_2: ORIENT 61D +/- 2D; ! linenum: 904.000 sequence_1: USE OFAD aperture: 2 sp_element: F550W priority: 1 req_1: SAME POS FOR 904 AS 903; req_2: SAME ORIENT FOR 904 AS 903; req_3: SEQ 903-904 NO GAP; ! linenum: 905.000 sequence_1: USE OFAD1 aperture: 2 sp_element: F550W priority: 1 req_1: POS TARG -60,0; req_2: ORIENT 61D +/- 2D; ! linenum: 906.000 sequence_1: USE OFAD aperture: 2 sp_element: F550W priority: 1 req_1: SAME POS FOR 906 AS 905; req_2: SAME ORIENT FOR 906 AS 905; req_3: SEQ 905-906 NO GAP; ! linenum: 907.000 sequence_1: USE OFAD1 aperture: 2 sp_element: F550W priority: 1 req_1: POS TARG 40,60; req_2: ORIENT 61D +/- 2D; ! linenum: 908.000 sequence_1: USE OFAD aperture: 2 sp_element: F550W priority: 1 req_1: SAME POS FOR 908 AS 907; req_2: SAME ORIENT FOR 908 AS 907; req_3: SEQ 907-908 NO GAP; ! linenum: 909.000 sequence_1: USE OFAD1 aperture: 2 sp_element: F550W priority: 1 req_1: POS TARG 40,-60; req_2: ORIENT 61D +/- 2D; ! linenum: 910.000 sequence_1: USE OFAD aperture: 2 sp_element: F550W priority: 1 req_1: SAME POS FOR 910 AS 909; req_2: SAME ORIENT FOR 910 AS 909; req_3: SEQ 909-910 NO GAP; ! linenum: 911.000 sequence_1: USE OFAD1 aperture: 2 sp_element: F550W priority: 1 req_1: POS TARG -40,60; req_2: ORIENT 61D +/- 2D; ! linenum: 912.000 sequence_1: USE OFAD aperture: 2 sp_element: F550W priority: 1 req_1: SAME POS FOR 912 AS 911; req_2: SAME ORIENT FOR 912 AS 911; req_3: SEQ 911-912 NO GAP; ! linenum: 913.000 sequence_1: USE OFAD1 aperture: 2 sp_element: F550W priority: 1 req_1: POS TARG -40,-60; req_2: ORIENT 61D +/- 2D; ! linenum: 914.000 sequence_1: USE OFAD aperture: 2 sp_element: F550W priority: 1 req_1: SAME POS FOR 914 AS 913; req_2: SAME ORIENT FOR 914 AS 913; req_3: SEQ 913-914 NO GAP; ! linenum: 915.000 sequence_1: USE OFAD1 aperture: 2 sp_element: F550W priority: 1 req_1: POS TARG 120,-10; req_2: ORIENT 61D +/- 2D; ! linenum: 916.000 sequence_1: USE OFAD aperture: 2 sp_element: F550W priority: 1 req_1: SAME POS FOR 916 AS 915; req_2: SAME ORIENT FOR 916 AS 915; req_3: SEQ 915-916 NO GAP; ! linenum: 917.000 sequence_1: USE OFAD1 aperture: 2 sp_element: F550W priority: 1 req_1: POS TARG -120,-10; req_2: ORIENT 61D +/- 2D; ! linenum: 918.000 sequence_1: USE OFAD aperture: 2 sp_element: F550W priority: 1 req_1: SAME POS FOR 918 AS 917; req_2: SAME ORIENT FOR 918 AS 917; req_3: SEQ 917-918 NO GAP; ! linenum: 919.000 sequence_1: USE OFAD1 aperture: 2 sp_element: F550W priority: 1 req_1: POS TARG 240,-10; req_2: ORIENT 61D +/- 2D; ! linenum: 920.000 sequence_1: USE OFAD aperture: 2 sp_element: F550W priority: 1 req_1: SAME POS FOR 920 AS 919; req_2: SAME ORIENT FOR 920 AS 919; req_3: SEQ 919-920 NO GAP; ! linenum: 921.000 sequence_1: USE OFAD1 aperture: 2 sp_element: F550W priority: 1 req_1: POS TARG -240,-10; req_2: ORIENT 61D +/- 2D; ! linenum: 922.000 sequence_1: USE OFAD aperture: 2 sp_element: F550W priority: 1 req_1: SAME POS FOR 922 AS 921; req_2: SAME ORIENT FOR 922 AS 921; req_3: SEQ 921-922 NO GAP; ! linenum: 923.000 sequence_1: USE OFAD1 aperture: 2 sp_element: F550W priority: 1 req_1: POS TARG 240,-70; req_2: ORIENT 61D +/- 2D; ! linenum: 924.000 sequence_1: USE OFAD aperture: 2 sp_element: F550W priority: 1 req_1: SAME POS FOR 924 AS 923; req_2: SAME ORIENT FOR 924 AS 923; req_3: SEQ 923-924 NO GAP; ! linenum: 925.000 sequence_1: USE OFAD1 aperture: 2 sp_element: F550W priority: 1 req_1: POS TARG -240,-70; req_2: ORIENT 61D +/- 2D; ! linenum: 926.000 sequence_1: USE OFAD aperture: 2 sp_element: F550W priority: 1 req_1: SAME POS FOR 926 AS 925; req_2: SAME ORIENT FOR 926 AS 925; req_3: SEQ 925-926 NO GAP; ! linenum: 927.000 sequence_1: USE OFAD1 aperture: 2 sp_element: F550W priority: 1 req_1: POS TARG 360,-60; req_2: ORIENT 61D +/- 2D; ! linenum: 928.000 sequence_1: USE OFAD aperture: 2 sp_element: F550W priority: 1 req_1: SAME POS FOR 928 AS 927; req_2: SAME ORIENT FOR 928 AS 927; req_3: SEQ 927-928 NO GAP; ! linenum: 929.000 sequence_1: USE OFAD1 aperture: 2 sp_element: F550W priority: 1 req_1: POS TARG -360,-60; req_2: ORIENT 61D +/- 2D; ! linenum: 930.000 sequence_1: USE OFAD aperture: 2 sp_element: F550W priority: 1 req_1: SAME POS FOR 930 AS 929; req_2: SAME ORIENT FOR 930 AS 929; req_3: SEQ 929-930 NO GAP; ! linenum: 931.000 sequence_1: USE OFAD1 aperture: 2 sp_element: F550W priority: 1 req_1: POS TARG 360,-120; req_2: ORIENT 61D +/- 2D; ! linenum: 932.000 sequence_1: USE OFAD aperture: 2 sp_element: F550W priority: 1 req_1: SAME POS FOR 932 AS 931; req_2: SAME ORIENT FOR 932 AS 931; req_3: SEQ 931-932 NO GAP; ! linenum: 933.000 sequence_1: USE OFAD1 aperture: 2 sp_element: F550W priority: 1 req_1: POS TARG -360,-120; req_2: ORIENT 61D +/- 2D; ! linenum: 934.000 sequence_1: USE OFAD aperture: 2 sp_element: F550W priority: 1 req_1: SAME POS FOR 934 AS 933; req_2: SAME ORIENT FOR 934 AS 933; req_3: SEQ 933-934 NO GAP; ! linenum: 935.000 sequence_1: USE OFAD1 aperture: 2 sp_element: F550W priority: 1 req_1: POS TARG 0,0; req_2: ORIENT 91D +/- 2D; ! linenum: 936.000 sequence_1: USE OFAD aperture: 2 sp_element: F550W priority: 1 req_1: SAME POS FOR 936 AS 935; req_2: SAME ORIENT FOR 936 AS 935; req_3: SEQ 935-936 NO GAP; ! linenum: 937.000 sequence_1: USE OFAD1 aperture: 2 sp_element: F550W priority: 1 req_1: POS TARG 0,0; req_2: ORIENT 31D +/- 2D; ! linenum: 938.000 sequence_1: USE OFAD aperture: 2 sp_element: F550W priority: 1 req_1: SAME POS FOR 938 AS 937; req_2: SAME ORIENT FOR 938 AS 937; req_3: SEQ 937-938 NO GAP; ! ! end of exposure logsheet ! No scan data records found