! Hubble Space Telescope Cycle 5 (1995) Phase II Proposal Template ! $Id: 5787,v 1.1 1994/12/14 19:00:13 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: chu-436.prop ! Date generated: Wed Dec 14 14:00:00 EST 1994 ! Proposal_Information ! Section 4 Title: The Core of the 30 Doradus Giant H II Region Proposal_Category: AR Scientific_Category: Interstellar Medium Cycle: 5 Investigators PI_name: You-Hua Chu PI_Institution: University of Illinois CoI_Name: Dominik Bomans CoI_Institution: Sternwarte der Universitaet Bonn Contact: ! Y or N (designate at most one contact) CoI_Name: Sean Points CoI_Institution: University of Illinois Contact: ! Y or N (designate at most one contact) CoI_Name: Bart Wakker CoI_Institution: University of Illinois Contact: ! Y or N (designate at most one contact) Abstract: ! Free format text (please update) 30 Doradus is the nearest prototypical giant H II region, containing a large number of massive stars and dense interstellar matter. Thus it is possible to observe astrophysical phenomena that are rarely seen elsewhere. We have already studied the kinematic, X-ray, and UV interstellar absorption properties of 30 Dor, and these have revealed several different types of objects that merit further investigation. However, the complex and crowded structure of 30 Dor has hampered our analysis. The high spatial resolution of the available archival HST images of the core of 30 Dor can help solve some questions about the physical nature of four specific types of objects in this region: 1) shocked cloudlets, 2) fast expanding shells, 3) small ring nebulae around massive stars, and 4) a point X-ray source at R 136. With these studies we can understand better the stellar population, the interstellar conditions, and the interaction of stars with the ambient interstellar medium within 30 Dor. 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