! Hubble Space Telescope Cycle 5 (1995) Phase II Proposal Template ! $Id: 5799,v 1.1 1994/12/14 19:18:29 pepsa Exp $ ! ! Refer to the HST Phase II Proposal Instructions to fill this out ! ! Anything after a "!" is ignored, and may be deleted ! ! All keywords with multiple entries are comma delimited except the ! Visit_Requirements and Special_Requirements keywords which can be ! delimited with carriage returns or semi-colons, but not commas ! ! For help call your Program Coordinator: n/a ! Phone: n/a , E-mail: n/a ! ! This partially completed template was generated from a Phase I proposal. ! Name of Phase I Proposal: keyes-922.prop ! Date generated: Wed Dec 14 14:18:21 EST 1994 ! Proposal_Information ! Section 4 Title: Planetary Nebular Modeling with the Aid of Existing HST Imagery Proposal_Category: AR Scientific_Category: Interstellar Medium Cycle: 5 Investigators PI_name: Charles Keyes PI_Institution: Space Telescope Science Institute CoI_Name: Lawrence Aller CoI_Institution: University of California, Los Angeles Contact: ! Y or N (designate at most one contact) CoI_Name: Siek Hyung CoI_Institution: University of California, Los Angeles Contact: ! Y or N (designate at most one contact) Abstract: ! Free format text (please update) We propose to rediscuss the existing HST WFPC observations of five planetary nebulae, namely NGC 7027, NGC 2440, Hb 12, IC 418, and IC 4997. These images were obtained in pre-servicing GO and GTO programs. Most of the images are of very good quality, and are well-suited for our investigation. We propose to use the HST high spatial resolution images to determine the sub-arcsecond geometrical structure of these PN for which we have obtained high quality high spectral resolution optical data with the Hamilton echelle CCD spectrograph at Lick Observatory. We possess state-of-the-art modeling techniques for the thermal, ionization, and physical structure of low-to-moderate density astrophysical plasmas. On the basis of the HST-derived small-scale structure we will construct new theoretical thermal and ionization models with our enhanced density contrast modeling technique in order to derive highly improved chemical abundances. This project parallels our own observing proposal, submitted for Cycle 5 under the title ``HST Imagery of Compact and Axi-symmetrical Planetary Nebulae''. Questions ! Free format text (please update) Observing_Description: Real_Time_Justification: Calibration_Justification: ! Move appropriate text from Real_Time_Justification Additional_Comments: Fixed_Targets ! Section 5.1 Target_Number: Target_Name: Alternate_Names: Description: Position: ! Most common specification format is ! RA=0H 0M 0.00S +/- 0S, ! DEC=0D 0' 0.0" +/- 0", ! PLATE-ID=0000 Equinox: RV_or_Z: RA_PM: ! Units are seconds of time per year Dec_PM: ! Units are seconds of arc per year Epoch: Annual_Parallax: Flux: ! Include at least V and B-V Comments: Solar_System_Targets ! Section 5.2 Target_Number: Target_Name: Description: Level_1: ! Satellite of Sun Level_2: ! Satellite of Level_1 Level_3: ! Satellite of Level_2 Window: Flux: ! Include at least V and B-V Comments: Generic_Targets ! Section 5.3 Target_Number: Target_Name: Description: Criteria: Flux: Comments: Scan_Data ! Appendix B Scan_Number: FGS_Scan: Cont_or_Dwell: Dwell_Points: Dwell_Secs: Scan_Width: Scan_Length: Sides_Angle: Number_Lines: Scan_Rate: First_Line_PA: Scan_Frame: Length_Offset: Width_Offset: ! This is a template for a single visit containing a single exposure ! Repeat exposure and visit blocks as needed Visits ! Section 6 Visit_Number: Visit_Requirements: ! Section 7.1 ! Uncomment or copy visit level special requirements needed ! Most of these requirements (including ORIENT) will limit scheduling ! PCS MODE [Fine | Gyro] ! GUIDing TOLerance ! ORIENTation TO ! ORIENTation TO FROM ! ORIENTation TO FROM NOMINAL ! SAME ORIENTation AS ! CVZ ! PARallel ! AFTER [BY [TO ]] ! AFTER ! BEFORE ! BETWEEN AND ! GROUP WITHIN