12004( 19) - 19-Jun-2009 20:04:04 - [ 1] HUBBLE SPACE TELESCOPE OBSERVING PROGRAM 12004 Version: 19 Check-in Time: 19-Jun-2009 20:04:04 STScI Edit Number: 13 Title The Last Mutual Event between the Satellites of Dwarf Planet Haumea ------------------------------------------------------------------------------------ Type Cycle GO/DD 17 ------------------------------------------------------------------------------------ Investigators Contact? PI: Dr. Darin Ragozzine California Institute of Technology CoI: Dr. Michael E. Brown California Institute of Technology N ------------------------------------------------------------------------------------ Abstract The dwarf planet Haumea has a fascinating history, including the formation of two large satellites by an ancient mantle-shattering collision. Haumea also has an exciting future with many observable mutual events between Haumea and the smaller inner moon Namaka predicted for the next several years. The Haumea-Namaka mutual events will provide a wealth of information that is otherwise unattainable: the size, shape, and spin pole of Haumea; the size, albedo, and density of Namaka; and precise orbital constraints. The orbital orientation is not as favorable for the outer, larger satellite Hi'iaka, but the last mutual event between Hi'iaka and Namaka occurs on July 2, 2009 and will not occur again for a century. As a follow-up to our observations of the last satellite-satellite event (Program 11971), we propose a short (7-orbit) STIS resolved photometry program to observe the last of these events, which will occur with an estimated ~93% probability. Even catching a partial event can measure the density of Hi'iaka to within ~15% and provide unique insight in the formation and evolution of this exciting system. ------------------------------------------------------------------------------------ Observations Description ------------------------ Observations of a satellite-satellite mutual event of the dwarf planet Haumea. The goal is to obtain precise photometry of a (resolved) faint satellite to a moving object (located near 13:36:08, +19:27:00). The observations are designed to maximize overall signal-to-noise (by maximizing total exposure time), while taking multiple observations to produce a high-cadence light curve. All 7 orbits must be taken as close as possible to (02-JUL-2009 04:45:00). Seven consecutive orbits must be taken, with the first exposure occurring between 01-JUL-2009:21:30:00 and 01-JUL-2009:23:30:00. Real Time Justification ----------------------- Calibration Justification ------------------------- Additional Comments ------------------- 12004( 19) - 19-Jun-2009 20:04:04 - [ 2] These observations could be taken with other instruments or in "engineering time." Please contact the PI (darin@caltech.edu) at any time for questions. ------------------------------------------------------------------------------------ 12004( 19) - 19-Jun-2009 20:04:04 - [ 3] TARGET LIST Solar System Targets ------------------------------------------------------------------------------------------------------------------------------------ TARGET NUMBER: 1 TARGET NAME: HAUMEA ------------------------------------------------------------------------------------------------------------------------------------ TARGET DESCRIPTION: ASTEROID (136108) Dwarf Planet Haumea and its Two Satellites ------------------------------------------------------------------------------------------------------------------------------------ TARGET POSITION LEVEL 1 TARGET POSITION LEVEL 2 TYPE=ASTEROID, A=43.1359862, E=0.1949506, I=28.2244, O=122.1032, W=239.18665, M=202.66919, EQUINOX=J2000, EPOCH=30-NOV-2008:00:00:00 ------------------------------------------------------------------------------------------------------------------------------------ TARGET POSITION LEVEL 3 WINDOWS ------------------------------------------------------------------------------------------------------------------------------------ DATA COMMENTS V = 17.1 +/- 0.0 At the time of the observations, the approximate RA and Dec are 13:36:08, +19:27:00 Ephemeris Center: EARTH ------------------------------------------------------------------------------------------------------------------------------------ 12004( 19) - 19-Jun-2009 20:04:04 - [ 4] Patterns ------------------------------------------------------------------------------------------------------------------------------------ Pattern_Number: 7 Primary_Pattern Secondary_Pattern Pattern_Type STIS-PERP-TO-SLIT Pattern_Purpose MOSAIC Number_Of_Points 6 Point_Spacing 0.4056 Line_Spacing Coordinate_Frame POS-TARG Pattern_Orient 0.0 Angle_Between_Sides Center_Pattern NO Pattern_Comments: The purpose of the dither pattern is to reduce the effects of hot pixels to improve photometric accuracy. Ideal dither spacing is an integer number of pixels, since a stable PSF is more important than a sub-sampled PSF: 0.4056" = 8 pixels. Dither spacing is large enough to significantly displace hot pixels with respect to the PSF size, but small enough to keep the observations near the middle of the detector and to minimize slew time. By the suggestion of Charles Profitt, we are going to be dither perpendicular to the slit to minimize variable CTE effects. ------------------------------------------------------------------------------------------------------------------------------------ Pattern_Number: 8 Primary_Pattern Secondary_Pattern Pattern_Type STIS-PERP-TO-SLIT Pattern_Purpose MOSAIC Number_Of_Points 8 Point_Spacing 0.4056 Line_Spacing Coordinate_Frame POS-TARG Pattern_Orient 0.0 Angle_Between_Sides Center_Pattern NO Pattern_Comments: The purpose of the dither pattern is to reduce the effects of hot pixels to improve photometric accuracy. Ideal dither spacing is an integer number of pixels, since a stable PSF is more important than a sub-sampled PSF: 0.4056" = 8 pixels. Dither spacing is large enough to significantly displace hot pixels with respect to the PSF size, but small enough to keep the observations near the middle of the detector and to minimize slew time. By the suggestion of Charles Profitt, we are going to be dither perpendicular to the slit to minimize variable CTE effects. ------------------------------------------------------------------------------------------------------------------------------------ 12004( 19) - 19-Jun-2009 20:04:04 - [ 5] Patterns ------------------------------------------------------------------------------------------------------------------------------------ Pattern_Number: 9 Primary_Pattern Secondary_Pattern Pattern_Type STIS-PERP-TO-SLIT Pattern_Purpose MOSAIC Number_Of_Points 9 Point_Spacing 0.4056 Line_Spacing Coordinate_Frame POS-TARG Pattern_Orient 0.0 Angle_Between_Sides Center_Pattern NO Pattern_Comments: The purpose of the dither pattern is to reduce the effects of hot pixels to improve photometric accuracy. Ideal dither spacing is an integer number of pixels, since a stable PSF is more important than a sub-sampled PSF: 0.4056" = 8 pixels. Dither spacing is large enough to significantly displace hot pixels with respect to the PSF size, but small enough to keep the observations near the middle of the detector and to minimize slew time. By the suggestion of Charles Profitt, we are going to be dither perpendicular to the slit to minimize variable CTE effects. ------------------------------------------------------------------------------------------------------------------------------------ Pattern_Number: 10 Primary_Pattern Secondary_Pattern Pattern_Type STIS-PERP-TO-SLIT Pattern_Purpose MOSAIC Number_Of_Points 10 Point_Spacing 0.4056 Line_Spacing Coordinate_Frame POS-TARG Pattern_Orient 0.0 Angle_Between_Sides Center_Pattern NO Pattern_Comments: The purpose of the dither pattern is to reduce the effects of hot pixels to improve photometric accuracy. Ideal dither spacing is an integer number of pixels, since a stable PSF is more important than a sub-sampled PSF: 0.4056" = 8 pixels. Dither spacing is large enough to significantly displace hot pixels with respect to the PSF size, but small enough to keep the observations near the middle of the detector and to minimize slew time. By the suggestion of Charles Profitt, we are going to be dither perpendicular to the slit to minimize variable CTE effects. ------------------------------------------------------------------------------------------------------------------------------------ 12004( 19) - 19-Jun-2009 20:04:04 - [ 6] Patterns ------------------------------------------------------------------------------------------------------------------------------------ Pattern_Number: 11 Primary_Pattern Secondary_Pattern Pattern_Type STIS-PERP-TO-SLIT Pattern_Purpose MOSAIC Number_Of_Points 12 Point_Spacing 0.4056 Line_Spacing Coordinate_Frame POS-TARG Pattern_Orient 0.0 Angle_Between_Sides Center_Pattern NO Pattern_Comments: The purpose of the dither pattern is to reduce the effects of hot pixels to improve photometric accuracy. Ideal dither spacing is an integer number of pixels, since a stable PSF is more important than a sub-sampled PSF: 0.4056" = 8 pixels. Dither spacing is large enough to significantly displace hot pixels with respect to the PSF size, but small enough to keep the observations near the middle of the detector and to minimize slew time. By the suggestion of Charles Profitt, we are going to be dither perpendicular to the slit to minimize variable CTE effects. ------------------------------------------------------------------------------------------------------------------------------------ Pattern_Number: 12 Primary_Pattern Secondary_Pattern Pattern_Type STIS-PERP-TO-SLIT Pattern_Purpose MOSAIC Number_Of_Points 13 Point_Spacing 0.4056 Line_Spacing Coordinate_Frame POS-TARG Pattern_Orient 0.0 Angle_Between_Sides Center_Pattern NO Pattern_Comments: The purpose of the dither pattern is to reduce the effects of hot pixels to improve photometric accuracy. Ideal dither spacing is an integer number of pixels, since a stable PSF is more important than a sub-sampled PSF: 0.4056" = 8 pixels. Dither spacing is large enough to significantly displace hot pixels with respect to the PSF size, but small enough to keep the observations near the middle of the detector and to minimize slew time. By the suggestion of Charles Profitt, we are going to be dither perpendicular to the slit to minimize variable CTE effects. ------------------------------------------------------------------------------------------------------------------------------------ 12004( 19) - 19-Jun-2009 20:04:04 - [ 7] Visit: 01 Visit Requirements: BETWEEN 01-JUL-2009:21:30:00 AND 01-JUL-2009:23:30:00 On Hold Comments: Additional Comments: Observation of the Haumea satellite-satellite mutual event through resolved photometry. The first observation of seven consecutive orbits should occur between 01-JUL-2009:21:30:00 and 01-JUL-2009:23:30:00, in order to observe the event. The observations are designed to maximize overall signal-to-noise (by minimizing read and overhead time), while achieving high temporal cadence and avoiding saturation of the primary (~58 seconds).Observations should consist of the maximum number of 40 second observations during visible time. The satellites are directly South of Haumea, so please choose ORIENT near 135 degrees, instead of near 90 degrees, in order to keep the diffraction spikes off of the satellites and to improve the faint satellite search. This orientation is a secondary requirement, and it can be relaxed or dropped if necessary. Exposures ------------------------------------------------------------------------------------------------------------------------------------ Exp | Target | Instr | Oper. | Aper |Spectral|Central| Optional |Num| Time | Special Num | Name | Config | Mode | or FOV |Element |Waveln.| Parameters |Exp| | Requirements ------------------------------------------------------------------------------------------------------------------------------------ 1 HAUMEA STIS/CCD ACCUM 50CCD MIRROR CR-SPLIT=NO, SIZEAXIS2=200.0 3 40.0 S POS TARG 0, 15; SEQ 1 NON-INT; PATTERN 7 1 ------------------------------------------------------------------------------------------------------------------------------------ 2 HAUMEA STIS/CCD ACCUM 50CCD MIRROR CR-SPLIT=NO, SIZEAXIS2=200.0 3 40.0 S POS TARG 0, 15; SEQ 2 NON-INT; PATTERN 8 2 ------------------------------------------------------------------------------------------------------------------------------------ 3 HAUMEA STIS/CCD ACCUM 50CCD MIRROR CR-SPLIT=NO, SIZEAXIS2=200.0 3 40.0 S POS TARG 0, 15; SEQ 3 NON-INT; PATTERN 9 3 ------------------------------------------------------------------------------------------------------------------------------------ 4 HAUMEA STIS/CCD ACCUM 50CCD MIRROR CR-SPLIT=NO, SIZEAXIS2=200.0 3 40.0 S POS TARG 0, 15; SEQ 4 NON-INT; PATTERN 10 4 ------------------------------------------------------------------------------------------------------------------------------------ 5 HAUMEA STIS/CCD ACCUM 50CCD MIRROR CR-SPLIT=NO, SIZEAXIS2=200.0 3 40.0 S POS TARG 0, 15; NEW OBSET; SEQ 5 NON-INT; PATTERN 11 5 ------------------------------------------------------------------------------------------------------------------------------------ 6 HAUMEA STIS/CCD ACCUM 50CCD MIRROR CR-SPLIT=NO, SIZEAXIS2=200.0 3 40.0 S POS TARG 0, 15; SEQ 6 NON-INT; PATTERN 11 6 ------------------------------------------------------------------------------------------------------------------------------------ 7 HAUMEA STIS/CCD ACCUM 50CCD MIRROR CR-SPLIT=NO, SIZEAXIS2=200.0 3 40.0 S POS TARG 0, 15; SEQ 7 NON-INT; PATTERN 12 7 ------------------------------------------------------------------------------------------------------------------------------------ Sub Exposures ------------------------------------------------------------------------------------------------------------------------------------ Target | Exp |Instr | Oper. | Aper |Spectral|Cent.|Primary |Secondary |Iteration |CR-SPLIT |Orbit |Duration Name | Num |Config | Mode | or FOV |Element |Wave.|Pattern Pos |Pattern Pos |Num |Num |Number | ------------------------------------------------------------------------------------------------------------------------------------ HAUMEA 1 STIS/CCD ACCUM 50CCD MIRROR 1 none 1 none 1 N/A HAUMEA 1 STIS/CCD ACCUM 50CCD MIRROR 1 none 2 none 1 N/A HAUMEA 1 STIS/CCD ACCUM 50CCD MIRROR 1 none 3 none 1 N/A HAUMEA 1 STIS/CCD ACCUM 50CCD MIRROR 2 none 1 none 1 N/A 12004( 19) - 19-Jun-2009 20:04:04 - [ 8] Sub Exposures ------------------------------------------------------------------------------------------------------------------------------------ Target | Exp |Instr | Oper. | Aper |Spectral|Cent.|Primary |Secondary |Iteration |CR-SPLIT |Orbit |Duration Name | Num |Config | Mode | or FOV |Element |Wave.|Pattern Pos |Pattern Pos |Num |Num |Number | ------------------------------------------------------------------------------------------------------------------------------------ HAUMEA 1 STIS/CCD ACCUM 50CCD MIRROR 2 none 2 none 1 N/A HAUMEA 1 STIS/CCD ACCUM 50CCD MIRROR 2 none 3 none 1 N/A HAUMEA 1 STIS/CCD ACCUM 50CCD MIRROR 3 none 1 none 1 N/A HAUMEA 1 STIS/CCD ACCUM 50CCD MIRROR 3 none 2 none 1 N/A HAUMEA 1 STIS/CCD ACCUM 50CCD MIRROR 3 none 3 none 1 N/A HAUMEA 1 STIS/CCD ACCUM 50CCD MIRROR 4 none 1 none 1 N/A HAUMEA 1 STIS/CCD ACCUM 50CCD MIRROR 4 none 2 none 1 N/A HAUMEA 1 STIS/CCD ACCUM 50CCD MIRROR 4 none 3 none 1 N/A HAUMEA 1 STIS/CCD ACCUM 50CCD MIRROR 5 none 1 none 1 N/A HAUMEA 1 STIS/CCD ACCUM 50CCD MIRROR 5 none 2 none 1 N/A HAUMEA 1 STIS/CCD ACCUM 50CCD MIRROR 5 none 3 none 1 N/A HAUMEA 1 STIS/CCD ACCUM 50CCD MIRROR 6 none 1 none 1 N/A HAUMEA 1 STIS/CCD ACCUM 50CCD MIRROR 6 none 2 none 1 N/A HAUMEA 1 STIS/CCD ACCUM 50CCD MIRROR 6 none 3 none 1 N/A HAUMEA 2 STIS/CCD ACCUM 50CCD MIRROR 1 none 1 none 2 N/A HAUMEA 2 STIS/CCD ACCUM 50CCD MIRROR 1 none 2 none 2 N/A HAUMEA 2 STIS/CCD ACCUM 50CCD MIRROR 1 none 3 none 2 N/A HAUMEA 2 STIS/CCD ACCUM 50CCD MIRROR 2 none 1 none 2 N/A HAUMEA 2 STIS/CCD ACCUM 50CCD MIRROR 2 none 2 none 2 N/A HAUMEA 2 STIS/CCD ACCUM 50CCD MIRROR 2 none 3 none 2 N/A HAUMEA 2 STIS/CCD ACCUM 50CCD MIRROR 3 none 1 none 2 N/A HAUMEA 2 STIS/CCD ACCUM 50CCD MIRROR 3 none 2 none 2 N/A HAUMEA 2 STIS/CCD ACCUM 50CCD MIRROR 3 none 3 none 2 N/A HAUMEA 2 STIS/CCD ACCUM 50CCD MIRROR 4 none 1 none 2 N/A HAUMEA 2 STIS/CCD ACCUM 50CCD MIRROR 4 none 2 none 2 N/A HAUMEA 2 STIS/CCD ACCUM 50CCD MIRROR 4 none 3 none 2 N/A HAUMEA 2 STIS/CCD ACCUM 50CCD MIRROR 5 none 1 none 2 N/A HAUMEA 2 STIS/CCD ACCUM 50CCD MIRROR 5 none 2 none 2 N/A HAUMEA 2 STIS/CCD ACCUM 50CCD MIRROR 5 none 3 none 2 N/A HAUMEA 2 STIS/CCD ACCUM 50CCD MIRROR 6 none 1 none 2 N/A HAUMEA 2 STIS/CCD ACCUM 50CCD MIRROR 6 none 2 none 2 N/A HAUMEA 2 STIS/CCD ACCUM 50CCD MIRROR 6 none 3 none 2 N/A HAUMEA 2 STIS/CCD ACCUM 50CCD MIRROR 7 none 1 none 2 N/A HAUMEA 2 STIS/CCD ACCUM 50CCD MIRROR 7 none 2 none 2 N/A HAUMEA 2 STIS/CCD ACCUM 50CCD MIRROR 7 none 3 none 2 N/A HAUMEA 2 STIS/CCD ACCUM 50CCD MIRROR 8 none 1 none 2 N/A HAUMEA 2 STIS/CCD ACCUM 50CCD MIRROR 8 none 2 none 2 N/A HAUMEA 2 STIS/CCD ACCUM 50CCD MIRROR 8 none 3 none 2 N/A HAUMEA 3 STIS/CCD ACCUM 50CCD MIRROR 1 none 1 none 3 N/A HAUMEA 3 STIS/CCD ACCUM 50CCD MIRROR 1 none 2 none 3 N/A HAUMEA 3 STIS/CCD ACCUM 50CCD MIRROR 1 none 3 none 3 N/A HAUMEA 3 STIS/CCD ACCUM 50CCD MIRROR 2 none 1 none 3 N/A HAUMEA 3 STIS/CCD ACCUM 50CCD MIRROR 2 none 2 none 3 N/A HAUMEA 3 STIS/CCD ACCUM 50CCD MIRROR 2 none 3 none 3 N/A HAUMEA 3 STIS/CCD ACCUM 50CCD MIRROR 3 none 1 none 3 N/A HAUMEA 3 STIS/CCD ACCUM 50CCD MIRROR 3 none 2 none 3 N/A HAUMEA 3 STIS/CCD ACCUM 50CCD MIRROR 3 none 3 none 3 N/A HAUMEA 3 STIS/CCD ACCUM 50CCD MIRROR 4 none 1 none 3 N/A 12004( 19) - 19-Jun-2009 20:04:04 - [ 9] Sub Exposures ------------------------------------------------------------------------------------------------------------------------------------ Target | Exp |Instr | Oper. | Aper |Spectral|Cent.|Primary |Secondary |Iteration |CR-SPLIT |Orbit |Duration Name | Num |Config | Mode | or FOV |Element |Wave.|Pattern Pos |Pattern Pos |Num |Num |Number | ------------------------------------------------------------------------------------------------------------------------------------ HAUMEA 3 STIS/CCD ACCUM 50CCD MIRROR 4 none 2 none 3 N/A HAUMEA 3 STIS/CCD ACCUM 50CCD MIRROR 4 none 3 none 3 N/A HAUMEA 3 STIS/CCD ACCUM 50CCD MIRROR 5 none 1 none 3 N/A HAUMEA 3 STIS/CCD ACCUM 50CCD MIRROR 5 none 2 none 3 N/A HAUMEA 3 STIS/CCD ACCUM 50CCD MIRROR 5 none 3 none 3 N/A HAUMEA 3 STIS/CCD ACCUM 50CCD MIRROR 6 none 1 none 3 N/A HAUMEA 3 STIS/CCD ACCUM 50CCD MIRROR 6 none 2 none 3 N/A HAUMEA 3 STIS/CCD ACCUM 50CCD MIRROR 6 none 3 none 3 N/A HAUMEA 3 STIS/CCD ACCUM 50CCD MIRROR 7 none 1 none 3 N/A HAUMEA 3 STIS/CCD ACCUM 50CCD MIRROR 7 none 2 none 3 N/A HAUMEA 3 STIS/CCD ACCUM 50CCD MIRROR 7 none 3 none 3 N/A HAUMEA 3 STIS/CCD ACCUM 50CCD MIRROR 8 none 1 none 3 N/A HAUMEA 3 STIS/CCD ACCUM 50CCD MIRROR 8 none 2 none 3 N/A HAUMEA 3 STIS/CCD ACCUM 50CCD MIRROR 8 none 3 none 3 N/A HAUMEA 3 STIS/CCD ACCUM 50CCD MIRROR 9 none 1 none 3 N/A HAUMEA 3 STIS/CCD ACCUM 50CCD MIRROR 9 none 2 none 3 N/A HAUMEA 3 STIS/CCD ACCUM 50CCD MIRROR 9 none 3 none 3 N/A HAUMEA 4 STIS/CCD ACCUM 50CCD MIRROR 1 none 1 none 4 N/A HAUMEA 4 STIS/CCD ACCUM 50CCD MIRROR 1 none 2 none 4 N/A HAUMEA 4 STIS/CCD ACCUM 50CCD MIRROR 1 none 3 none 4 N/A HAUMEA 4 STIS/CCD ACCUM 50CCD MIRROR 2 none 1 none 4 N/A HAUMEA 4 STIS/CCD ACCUM 50CCD MIRROR 2 none 2 none 4 N/A HAUMEA 4 STIS/CCD ACCUM 50CCD MIRROR 2 none 3 none 4 N/A HAUMEA 4 STIS/CCD ACCUM 50CCD MIRROR 3 none 1 none 4 N/A HAUMEA 4 STIS/CCD ACCUM 50CCD MIRROR 3 none 2 none 4 N/A HAUMEA 4 STIS/CCD ACCUM 50CCD MIRROR 3 none 3 none 4 N/A HAUMEA 4 STIS/CCD ACCUM 50CCD MIRROR 4 none 1 none 4 N/A HAUMEA 4 STIS/CCD ACCUM 50CCD MIRROR 4 none 2 none 4 N/A HAUMEA 4 STIS/CCD ACCUM 50CCD MIRROR 4 none 3 none 4 N/A HAUMEA 4 STIS/CCD ACCUM 50CCD MIRROR 5 none 1 none 4 N/A HAUMEA 4 STIS/CCD ACCUM 50CCD MIRROR 5 none 2 none 4 N/A HAUMEA 4 STIS/CCD ACCUM 50CCD MIRROR 5 none 3 none 4 N/A HAUMEA 4 STIS/CCD ACCUM 50CCD MIRROR 6 none 1 none 4 N/A HAUMEA 4 STIS/CCD ACCUM 50CCD MIRROR 6 none 2 none 4 N/A HAUMEA 4 STIS/CCD ACCUM 50CCD MIRROR 6 none 3 none 4 N/A HAUMEA 4 STIS/CCD ACCUM 50CCD MIRROR 7 none 1 none 4 N/A HAUMEA 4 STIS/CCD ACCUM 50CCD MIRROR 7 none 2 none 4 N/A HAUMEA 4 STIS/CCD ACCUM 50CCD MIRROR 7 none 3 none 4 N/A HAUMEA 4 STIS/CCD ACCUM 50CCD MIRROR 8 none 1 none 4 N/A HAUMEA 4 STIS/CCD ACCUM 50CCD MIRROR 8 none 2 none 4 N/A HAUMEA 4 STIS/CCD ACCUM 50CCD MIRROR 8 none 3 none 4 N/A HAUMEA 4 STIS/CCD ACCUM 50CCD MIRROR 9 none 1 none 4 N/A HAUMEA 4 STIS/CCD ACCUM 50CCD MIRROR 9 none 2 none 4 N/A HAUMEA 4 STIS/CCD ACCUM 50CCD MIRROR 9 none 3 none 4 N/A HAUMEA 4 STIS/CCD ACCUM 50CCD MIRROR 10 none 1 none 4 N/A HAUMEA 4 STIS/CCD ACCUM 50CCD MIRROR 10 none 2 none 4 N/A HAUMEA 4 STIS/CCD ACCUM 50CCD MIRROR 10 none 3 none 4 N/A HAUMEA 5 STIS/CCD ACCUM 50CCD MIRROR 1 none 1 none 5 N/A 12004( 19) - 19-Jun-2009 20:04:04 - [ 10] Sub Exposures ------------------------------------------------------------------------------------------------------------------------------------ Target | Exp |Instr | Oper. | Aper |Spectral|Cent.|Primary |Secondary |Iteration |CR-SPLIT |Orbit |Duration Name | Num |Config | Mode | or FOV |Element |Wave.|Pattern Pos |Pattern Pos |Num |Num |Number | ------------------------------------------------------------------------------------------------------------------------------------ HAUMEA 5 STIS/CCD ACCUM 50CCD MIRROR 1 none 2 none 5 N/A HAUMEA 5 STIS/CCD ACCUM 50CCD MIRROR 1 none 3 none 5 N/A HAUMEA 5 STIS/CCD ACCUM 50CCD MIRROR 2 none 1 none 5 N/A HAUMEA 5 STIS/CCD ACCUM 50CCD MIRROR 2 none 2 none 5 N/A HAUMEA 5 STIS/CCD ACCUM 50CCD MIRROR 2 none 3 none 5 N/A HAUMEA 5 STIS/CCD ACCUM 50CCD MIRROR 3 none 1 none 5 N/A HAUMEA 5 STIS/CCD ACCUM 50CCD MIRROR 3 none 2 none 5 N/A HAUMEA 5 STIS/CCD ACCUM 50CCD MIRROR 3 none 3 none 5 N/A HAUMEA 5 STIS/CCD ACCUM 50CCD MIRROR 4 none 1 none 5 N/A HAUMEA 5 STIS/CCD ACCUM 50CCD MIRROR 4 none 2 none 5 N/A HAUMEA 5 STIS/CCD ACCUM 50CCD MIRROR 4 none 3 none 5 N/A HAUMEA 5 STIS/CCD ACCUM 50CCD MIRROR 5 none 1 none 5 N/A HAUMEA 5 STIS/CCD ACCUM 50CCD MIRROR 5 none 2 none 5 N/A HAUMEA 5 STIS/CCD ACCUM 50CCD MIRROR 5 none 3 none 5 N/A HAUMEA 5 STIS/CCD ACCUM 50CCD MIRROR 6 none 1 none 5 N/A HAUMEA 5 STIS/CCD ACCUM 50CCD MIRROR 6 none 2 none 5 N/A HAUMEA 5 STIS/CCD ACCUM 50CCD MIRROR 6 none 3 none 5 N/A HAUMEA 5 STIS/CCD ACCUM 50CCD MIRROR 7 none 1 none 5 N/A HAUMEA 5 STIS/CCD ACCUM 50CCD MIRROR 7 none 2 none 5 N/A HAUMEA 5 STIS/CCD ACCUM 50CCD MIRROR 7 none 3 none 5 N/A HAUMEA 5 STIS/CCD ACCUM 50CCD MIRROR 8 none 1 none 5 N/A HAUMEA 5 STIS/CCD ACCUM 50CCD MIRROR 8 none 2 none 5 N/A HAUMEA 5 STIS/CCD ACCUM 50CCD MIRROR 8 none 3 none 5 N/A HAUMEA 5 STIS/CCD ACCUM 50CCD MIRROR 9 none 1 none 5 N/A HAUMEA 5 STIS/CCD ACCUM 50CCD MIRROR 9 none 2 none 5 N/A HAUMEA 5 STIS/CCD ACCUM 50CCD MIRROR 9 none 3 none 5 N/A HAUMEA 5 STIS/CCD ACCUM 50CCD MIRROR 10 none 1 none 5 N/A HAUMEA 5 STIS/CCD ACCUM 50CCD MIRROR 10 none 2 none 5 N/A HAUMEA 5 STIS/CCD ACCUM 50CCD MIRROR 10 none 3 none 5 N/A HAUMEA 5 STIS/CCD ACCUM 50CCD MIRROR 11 none 1 none 5 N/A HAUMEA 5 STIS/CCD ACCUM 50CCD MIRROR 11 none 2 none 5 N/A HAUMEA 5 STIS/CCD ACCUM 50CCD MIRROR 11 none 3 none 5 N/A HAUMEA 5 STIS/CCD ACCUM 50CCD MIRROR 12 none 1 none 5 N/A HAUMEA 5 STIS/CCD ACCUM 50CCD MIRROR 12 none 2 none 5 N/A HAUMEA 5 STIS/CCD ACCUM 50CCD MIRROR 12 none 3 none 5 N/A HAUMEA 6 STIS/CCD ACCUM 50CCD MIRROR 1 none 1 none 6 N/A HAUMEA 6 STIS/CCD ACCUM 50CCD MIRROR 1 none 2 none 6 N/A HAUMEA 6 STIS/CCD ACCUM 50CCD MIRROR 1 none 3 none 6 N/A HAUMEA 6 STIS/CCD ACCUM 50CCD MIRROR 2 none 1 none 6 N/A HAUMEA 6 STIS/CCD ACCUM 50CCD MIRROR 2 none 2 none 6 N/A HAUMEA 6 STIS/CCD ACCUM 50CCD MIRROR 2 none 3 none 6 N/A HAUMEA 6 STIS/CCD ACCUM 50CCD MIRROR 3 none 1 none 6 N/A HAUMEA 6 STIS/CCD ACCUM 50CCD MIRROR 3 none 2 none 6 N/A HAUMEA 6 STIS/CCD ACCUM 50CCD MIRROR 3 none 3 none 6 N/A HAUMEA 6 STIS/CCD ACCUM 50CCD MIRROR 4 none 1 none 6 N/A HAUMEA 6 STIS/CCD ACCUM 50CCD MIRROR 4 none 2 none 6 N/A HAUMEA 6 STIS/CCD ACCUM 50CCD MIRROR 4 none 3 none 6 N/A HAUMEA 6 STIS/CCD ACCUM 50CCD MIRROR 5 none 1 none 6 N/A 12004( 19) - 19-Jun-2009 20:04:04 - [ 11] Sub Exposures ------------------------------------------------------------------------------------------------------------------------------------ Target | Exp |Instr | Oper. | Aper |Spectral|Cent.|Primary |Secondary |Iteration |CR-SPLIT |Orbit |Duration Name | Num |Config | Mode | or FOV |Element |Wave.|Pattern Pos |Pattern Pos |Num |Num |Number | ------------------------------------------------------------------------------------------------------------------------------------ HAUMEA 6 STIS/CCD ACCUM 50CCD MIRROR 5 none 2 none 6 N/A HAUMEA 6 STIS/CCD ACCUM 50CCD MIRROR 5 none 3 none 6 N/A HAUMEA 6 STIS/CCD ACCUM 50CCD MIRROR 6 none 1 none 6 N/A HAUMEA 6 STIS/CCD ACCUM 50CCD MIRROR 6 none 2 none 6 N/A HAUMEA 6 STIS/CCD ACCUM 50CCD MIRROR 6 none 3 none 6 N/A HAUMEA 6 STIS/CCD ACCUM 50CCD MIRROR 7 none 1 none 6 N/A HAUMEA 6 STIS/CCD ACCUM 50CCD MIRROR 7 none 2 none 6 N/A HAUMEA 6 STIS/CCD ACCUM 50CCD MIRROR 7 none 3 none 6 N/A HAUMEA 6 STIS/CCD ACCUM 50CCD MIRROR 8 none 1 none 6 N/A HAUMEA 6 STIS/CCD ACCUM 50CCD MIRROR 8 none 2 none 6 N/A HAUMEA 6 STIS/CCD ACCUM 50CCD MIRROR 8 none 3 none 6 N/A HAUMEA 6 STIS/CCD ACCUM 50CCD MIRROR 9 none 1 none 6 N/A HAUMEA 6 STIS/CCD ACCUM 50CCD MIRROR 9 none 2 none 6 N/A HAUMEA 6 STIS/CCD ACCUM 50CCD MIRROR 9 none 3 none 6 N/A HAUMEA 6 STIS/CCD ACCUM 50CCD MIRROR 10 none 1 none 6 N/A HAUMEA 6 STIS/CCD ACCUM 50CCD MIRROR 10 none 2 none 6 N/A HAUMEA 6 STIS/CCD ACCUM 50CCD MIRROR 10 none 3 none 6 N/A HAUMEA 6 STIS/CCD ACCUM 50CCD MIRROR 11 none 1 none 6 N/A HAUMEA 6 STIS/CCD ACCUM 50CCD MIRROR 11 none 2 none 6 N/A HAUMEA 6 STIS/CCD ACCUM 50CCD MIRROR 11 none 3 none 6 N/A HAUMEA 6 STIS/CCD ACCUM 50CCD MIRROR 12 none 1 none 6 N/A HAUMEA 6 STIS/CCD ACCUM 50CCD MIRROR 12 none 2 none 6 N/A HAUMEA 6 STIS/CCD ACCUM 50CCD MIRROR 12 none 3 none 6 N/A HAUMEA 7 STIS/CCD ACCUM 50CCD MIRROR 1 none 1 none 7 N/A HAUMEA 7 STIS/CCD ACCUM 50CCD MIRROR 1 none 2 none 7 N/A HAUMEA 7 STIS/CCD ACCUM 50CCD MIRROR 1 none 3 none 7 N/A HAUMEA 7 STIS/CCD ACCUM 50CCD MIRROR 2 none 1 none 7 N/A HAUMEA 7 STIS/CCD ACCUM 50CCD MIRROR 2 none 2 none 7 N/A HAUMEA 7 STIS/CCD ACCUM 50CCD MIRROR 2 none 3 none 7 N/A HAUMEA 7 STIS/CCD ACCUM 50CCD MIRROR 3 none 1 none 7 N/A HAUMEA 7 STIS/CCD ACCUM 50CCD MIRROR 3 none 2 none 7 N/A HAUMEA 7 STIS/CCD ACCUM 50CCD MIRROR 3 none 3 none 7 N/A HAUMEA 7 STIS/CCD ACCUM 50CCD MIRROR 4 none 1 none 7 N/A HAUMEA 7 STIS/CCD ACCUM 50CCD MIRROR 4 none 2 none 7 N/A HAUMEA 7 STIS/CCD ACCUM 50CCD MIRROR 4 none 3 none 7 N/A HAUMEA 7 STIS/CCD ACCUM 50CCD MIRROR 5 none 1 none 7 N/A HAUMEA 7 STIS/CCD ACCUM 50CCD MIRROR 5 none 2 none 7 N/A HAUMEA 7 STIS/CCD ACCUM 50CCD MIRROR 5 none 3 none 7 N/A HAUMEA 7 STIS/CCD ACCUM 50CCD MIRROR 6 none 1 none 7 N/A HAUMEA 7 STIS/CCD ACCUM 50CCD MIRROR 6 none 2 none 7 N/A HAUMEA 7 STIS/CCD ACCUM 50CCD MIRROR 6 none 3 none 7 N/A HAUMEA 7 STIS/CCD ACCUM 50CCD MIRROR 7 none 1 none 7 N/A HAUMEA 7 STIS/CCD ACCUM 50CCD MIRROR 7 none 2 none 7 N/A HAUMEA 7 STIS/CCD ACCUM 50CCD MIRROR 7 none 3 none 7 N/A HAUMEA 7 STIS/CCD ACCUM 50CCD MIRROR 8 none 1 none 7 N/A HAUMEA 7 STIS/CCD ACCUM 50CCD MIRROR 8 none 2 none 7 N/A HAUMEA 7 STIS/CCD ACCUM 50CCD MIRROR 8 none 3 none 7 N/A HAUMEA 7 STIS/CCD ACCUM 50CCD MIRROR 9 none 1 none 7 N/A 12004( 19) - 19-Jun-2009 20:04:04 - [ 12] Sub Exposures ------------------------------------------------------------------------------------------------------------------------------------ Target | Exp |Instr | Oper. | Aper |Spectral|Cent.|Primary |Secondary |Iteration |CR-SPLIT |Orbit |Duration Name | Num |Config | Mode | or FOV |Element |Wave.|Pattern Pos |Pattern Pos |Num |Num |Number | ------------------------------------------------------------------------------------------------------------------------------------ HAUMEA 7 STIS/CCD ACCUM 50CCD MIRROR 9 none 2 none 7 N/A HAUMEA 7 STIS/CCD ACCUM 50CCD MIRROR 9 none 3 none 7 N/A HAUMEA 7 STIS/CCD ACCUM 50CCD MIRROR 10 none 1 none 7 N/A HAUMEA 7 STIS/CCD ACCUM 50CCD MIRROR 10 none 2 none 7 N/A HAUMEA 7 STIS/CCD ACCUM 50CCD MIRROR 10 none 3 none 7 N/A HAUMEA 7 STIS/CCD ACCUM 50CCD MIRROR 11 none 1 none 7 N/A HAUMEA 7 STIS/CCD ACCUM 50CCD MIRROR 11 none 2 none 7 N/A HAUMEA 7 STIS/CCD ACCUM 50CCD MIRROR 11 none 3 none 7 N/A HAUMEA 7 STIS/CCD ACCUM 50CCD MIRROR 12 none 1 none 7 N/A HAUMEA 7 STIS/CCD ACCUM 50CCD MIRROR 12 none 2 none 7 N/A HAUMEA 7 STIS/CCD ACCUM 50CCD MIRROR 12 none 3 none 7 N/A HAUMEA 7 STIS/CCD ACCUM 50CCD MIRROR 13 none 1 none 7 N/A HAUMEA 7 STIS/CCD ACCUM 50CCD MIRROR 13 none 2 none 7 N/A HAUMEA 7 STIS/CCD ACCUM 50CCD MIRROR 13 none 3 none 7 N/A 12004( 19) - 19-Jun-2009 20:04:04 - [ 13] Summary Form for Proposal 12004 Item Used in this proposal ------------------------------------------------------------------------------------------------------------------------------------ Apertures 50CCD ------------------------------------------------------------------------------------------------------------------------------------ Configurations STIS/CCD ------------------------------------------------------------------------------------------------------------------------------------ Opmodes ACCUM ------------------------------------------------------------------------------------------------------------------------------------ Optional Parameters CR-SPLIT=NO, SIZEAXIS2=200.0 ------------------------------------------------------------------------------------------------------------------------------------ Special Requirements BETWEEN 01-JUL-2009:21:30:00 AND 01-JUL-2009:23:30:00, NEW OBSET, PATTERN 10 4, PATTERN 11 5, PATTERN 11 6, PATTERN 12 7, PATTERN 7 1, PATTERN 8 2, PATTERN 9 3, POS TARG 0, 15, SEQ 1 NON-INT, SEQ 2 NON-INT, SEQ 3 NON-INT, SEQ 4 NON-INT, SEQ 5 NON-INT, SEQ 6 NON-INT, SEQ 7 NON-INT ------------------------------------------------------------------------------------------------------------------------------------ Spectral Elements MIRROR ------------------------------------------------------------------------------------------------------------------------------------ Target Names HAUMEA ------------------------------------------------------------------------------------------------------------------------------------