14177( 2) - 24-Jul-2015 01:34:55 - [ 1] HUBBLE SPACE TELESCOPE OBSERVING PROGRAM 14177 Version: 2 Check-in Time: 24-Jul-2015 01:34:55 STScI Edit Number: 0 Title Identifying Ionization Mechanisms through Spatially-Resolved Neon Emission in the Jets of Sz 102 ------------------------------------------------------------------------------------ Type Cycle GO 23 ------------------------------------------------------------------------------------ Investigators Contact? PI: Dr. Chun-Fan Liu Academia Sinica, Institute of Astronomy Y and Astrophysics CoI: Dr. Gregory J. Herczeg Peking University Y CoI: Dr. Frederick M. Walter State University of New York at Stony N Brook CoI: Dr. Hsien Shang Academia Sinica, Institute of Astronomy N and Astrophysics ------------------------------------------------------------------------------------ Abstract Understanding how jet and wind are launched from the disk is essential in understanding how gas accretes through the disk and onto the star in a young stellar system. Studying the jet launch region requires sub-AU resolution which is unresolvable with current facilities but emission from the jet helps to probe the physical conditions close to the launch region. Line diagnostic studies of jets from low-mass young stars suggest most of them are partially ionized, yet the origin of ionization is not fully understood. To investigate the relation between the jet and its ionization sources, we propose to obtain spatially-resolved HST/STIS [Ne III] 3869 spectra along the jet of the T Tauri star Sz 102. Neon has high photoionization thresholds and high valence ionization potentials that are most sensitive to high-energy processes in low-mass star formation, especially hard (keV) X-rays and strong (100 km/s) shocks. Its high-density forbidden transition [Ne III] 3869 provides probe close to the jet-driving region. Sz 102 drives bright bipolar jets that emit [Ne III] 3869, and has an edge-on oriented disk which blocks most of the stellar light and permit analysis at high spatial resolution. Hard X-ray irradiation is expected to occur close to the star while strong jet shocks occur further away as the flow propagates outward. By resolving the spatial distribution of the [Ne III] line, we aim to identify the major ionizing source of the Sz 102 jet. The study will help to infer the overall structure of ionization sources and be linked to magnetic structure in the star-disk system, which is responsible for launching the jet, potentially producing jet shocks, and emitting X-ray photons. ------------------------------------------------------------------------------------ Observations Description ------------------------ - Instrumental Configurations We will use STIS spectroscopic mode to obtain first-order spatially resolved long-slit spectra of [Ne III] 3869. We propose to use G430M grating with the 52X0.2 slit and achieve medium spectral resolution of ~50 km/s. The line widths obtained by VLT/UVES are ~150 to 200 km/s for both the blueshifted and redshifted microjets (Liu et al. 2014). We will spectrally separate the two sides of the microjet, should there be any spatial confusion. With the 52X0.2 14177( 2) - 24-Jul-2015 01:34:55 - [ 2] slit, it is possible to mitigate slit lost such that the variations of the line flux due to instrumental origins can be avoided. To obtain the required [Ne III] signal-to-noise of 20 in the brighter redshifted microjet, we request 2 orbits of STIS observation. We will use the two wavelength settings 3843 A (covering 3700 - 3986 A) and 3936 A (3793 - 4079 A) for each orbit, both of which include the [Ne III] emission. The use of two different maximizes the wavelength coverage, including serendipitous observations of the jet in [O II]3726, 3729 lines in the short wavelength setting and the [S II] 4068, 4076 lines in the long wavelength setting. We will dither along the slit by 0".525 (10.5 pixels) to overcome the undulation caused by undersampling of the central source, in order to have better spatial resolution of ~ 0".1. We will set CR-SPLIT = NO for each dither position since the background will dominate the noise. - Slit Orientations The slit will be placed along the jet of Sz 102, with a position angle of 98 degrees (Krautter 1986; Wang & Henning 2009). The VLT/UVES spectra of [Ne III] 3869 show that the emission traces both the blueshifted and redshifted jets from Sz 102. Spectroastrometric analysis suggests that the emission peaks of the blueshifted and redshifted jets are separated by ~0."3 (Liu et al. 2014). It is crucial for our study to trace the spatial distribution of jet emission in order to discriminate between ionization mechanisms. Therefore, the slit orientation needs to be kept along the nominal position angle. The proposed value for ORIENT is 45.35 + 180.0 + 98.0 = 323.35 in order to have schedulability. A ~2.5 degrees flexibility is allowed to increase scheduling possibility. The total variation of the angle, 5 degrees, produces < 0."05 transverse deviation (~1 pixel) at the distance of 0."5. - Exposure Time Estimates The exposure time estimates for G430M are based on flux-calibrated high resolution VLT/UVES spectra (Liu et al. 2014) and on flux-calibrated low resolution Keck/LRIS spectra (Herczeg & Hillenbrand 2014). The high resolution spectra have been spectrally decomposed into blueshifted and redshifted components, each traces one side of the microjet of Sz 102. We estimate the exposure times mainly based on the brighter redshifted emission. For the brighter redshifted microjet, the total flux is 5 x 10E-15 erg/s/cm2. Assuming the emission is extended over region of 0."2 x 0."5, the average brightness of the emission is thus 5 x 10E-14 erg/s/cm2/arcsec2. The continuum level at 3869 A is 3 x 10E-16 erg/s/cm2/A. With an average airglow condition, and default CR-SPLIT=2 and CCDGAIN=1 options, the ETC predicted a exposure time of ~5000 s for reaching S/N = 23 at the peak of the line emission and S/N = 3 at the continuum. This sets up the required exposure time for the observation in order to have both the line and the continuum with reasonable signal-to-noise ratios. The visibility for Sz 102 would be limited to 50 minutes due to restricted ORIENT. To assure target position accuracy, we propose both ACQ and ACQ/PEAK acquisition procedures for Sz 102. ------------------------------------------------------------------------------------ 14177( 2) - 24-Jul-2015 01:34:55 - [ 3] TARGET LIST Fixed Targets ------------------------------------------------------------------------------------------------------------------------------------ Tar| Target | Target | Target |Coord | Radial | Flux data No | Name | Description | Position |Eqnx | Vel. | ------------------------------------------------------------------------------------------------------------------------------------ 1 V-V1190-SCO STAR, JET, T TAURI RA=16H08M29.7290S +/- 0.06", J2000 V = 15.91 +/- 0.05 B = 16.26 STAR, YSO DEC=-39D03'11.01" +/- 0.06" Reference Frame: ICRS Comments: This object was generated by the targetselector and retrieved from the SIMBAD database. The coordinates are based on 2MASS point source catalog. ACQ and ACQ/Peakup are proposed and required to determine the peak position of the continuum source. Epoch of Position RA proper motion (seconds of time/yr) DEC Proper Motion (arcsec/yr) Annual Parallax (arcsec) 2000 3.9490257143172706E-4 -0.031 0.0 ------------------------------------------------------------------------------------------------------------------------------------ 14177( 2) - 24-Jul-2015 01:34:55 - [ 4] Patterns ------------------------------------------------------------------------------------------------------------------------------------ Pattern_Number: 1 Primary_Pattern Secondary_Pattern Pattern_Type STIS-ALONG-SLIT Pattern_Purpose DITHER Number_Of_Points 2 Point_Spacing 0.525 Line_Spacing Coordinate_Frame POS-TARG Pattern_Orient 90.0 Angle_Between_Sides Center_Pattern NO Pattern_Comments: Dither along the slit by 0.525 (10.5 pixels) for removing undersampling effects and for removing hot pixels. ------------------------------------------------------------------------------------------------------------------------------------ 14177( 2) - 24-Jul-2015 01:34:55 - [ 5] Visit: 01 Visit Requirements: ORIENT 320.85D TO 325.85 D On Hold Comments: Additional Comments: Exposures ------------------------------------------------------------------------------------------------------------------------------------ Exp | Target | Instr | Oper. | Aper |Spectral|Central| Optional |Num| Time | Special Num | Name | Config | Mode | or FOV |Element |Waveln.| Parameters |Exp| (Total) | Requirements ------------------------------------------------------------------------------------------------------------------------------------ 1 V-V1190-SCO STIS/CCD ACQ F28X50LP MIRROR ACQTYPE=POINT 1 5.0 S (5 S) ------------------------------------------------------------------------------------------------------------------------------------ 2 V-V1190-SCO STIS/CCD ACQ/PEA 52X0.1 G430M 3936 1 5.0 S (5 K S) ------------------------------------------------------------------------------------------------------------------------------------ 3 V-V1190-SCO STIS/CCD ACCUM 52X0.2 G430M 3936 CR-SPLIT=NO 1 2100 S PATTERN 1 3 see below (2088 S) ------------------------------------------------------------------------------------------------------------------------------------ 4 V-V1190-SCO STIS/CCD ACCUM 52X0.2 G430M 3843 CR-SPLIT=NO 1 2900 S PATTERN 1 4 see below (2924 S) ------------------------------------------------------------------------------------------------------------------------------------ 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 | ------------------------------------------------------------------------------------------------------------------------------------ V-V1190-SCO 1 STIS/CCD ACQ F28X50LP MIRROR none none none none 1 N/A V-V1190-SCO 2 STIS/CCD ACQ/PEA 52X0.1 G430M 3936 none none none none 1 N/A K V-V1190-SCO 3 STIS/CCD ACCUM 52X0.2 G430M 3936 1 none none none 1 1044.0 S V-V1190-SCO 3 STIS/CCD ACCUM 52X0.2 G430M 3936 2 none none none 1 1044.0 S V-V1190-SCO 4 STIS/CCD ACCUM 52X0.2 G430M 3843 1 none none none 2 1462 S V-V1190-SCO 4 STIS/CCD ACCUM 52X0.2 G430M 3843 2 none none none 2 1462 S 14177( 2) - 24-Jul-2015 01:34:55 - [ 6] Summary Form for Proposal 14177 Item Used in this proposal ------------------------------------------------------------------------------------------------------------------------------------ Apertures 52X0.1, 52X0.2, F28X50LP ------------------------------------------------------------------------------------------------------------------------------------ Configurations STIS/CCD ------------------------------------------------------------------------------------------------------------------------------------ Opmodes ACCUM, ACQ, ACQ/PEAK ------------------------------------------------------------------------------------------------------------------------------------ Optional Parameters ACQTYPE=POINT, CR-SPLIT=NO ------------------------------------------------------------------------------------------------------------------------------------ Special Requirements ORIENT 320.85D TO 325.85 D, PATTERN 1 3, PATTERN 1 4 ------------------------------------------------------------------------------------------------------------------------------------ Spectral Elements G430M, MIRROR ------------------------------------------------------------------------------------------------------------------------------------ Target Names V-V1190-SCO ------------------------------------------------------------------------------------------------------------------------------------