Post on 31-Mar-2021
transcript
Charon: Geologic Map of New Horizons’ Encounter Hemisphere, IIIS.J. Robbins0,1, J.R. Spencer1, R.A. Beyer2,3, P. Schenk4, J.M. Moore3, W.B. McKinnon5, R.P. Binzel6, M.W. Buie1, B.J. Buratti7, A.F. Cheng8, W.M. Grundy9,
I.R. Linscott10, H.J. Reitsema11, D.C. Reuter12, M.R. Showalter2, G.L. Tyler1, L.A. Young1, C.B. Olkin1, K. Ennico3, H.A. Weaver8, S.A. Stern1,the New Horizons Geology & Geophysics Investigation Team, LORRI Instrument Team, MVIC Instrument Team, and the New Horizons Encounter Team
0stuart@boulder.swri.edu, Southwest Research Institute, @DrAstroStu, 1Southwest Research Institute, 1050 Walnut Street, Suite 300, Boulder, CO 80302. 2Sagan Center at the SETI Institute. 3NASA Ames Research Center, Moffett Field, CA 84043. 4Lunar and Planetary Institute, Houston, TX. 5Washington University in St. Louis, St. Louis, MO.6Massachussetts Institute of Technology, Cambridge, MA. 7NASA Jet Propulsion Laboratory, California Institute of Technology, Pasadena, CA. 8The Johns Hopkins University, Baltimore, MD. 9Lowell Observatory, Flagstaff, AZ. 10Stanford University, Stanford, CA. 11Ball Aerospace (retired), Boulder, CO. 12NASA Goddard Space Flight Center, Greenbelt, MD.
• Basemap control as of March 2017, and Map reflects Jan-uary 2016 SPICE solutions.
• Basemap is LORRI mosaic with merged MVIC scan.
• Line art is being redrafted with March 2017 SPICE solu-tions, and being expanded northward.
Tectonics Map
“Vulcan Planum” Map
Units
Crb
Ej1
Ej2
Ls
Dm
Mo1
Mo2
Pg1
Pg2
Rt
Sm
Sme
Cr
Linear Featurescrest of buried cratercrest of crater rimdepression margingraben tracegrooveridge crestcatena
broad warp
scarp basescarp crest
Geologic Contactsmap boundaryboundary, certainboundary, approximate
Surface Featuresdark-colored ejecta
light-colored ejecta
colors used only in tectonics map
Buried Crater
Ejecta Type 1
Ejecta Type 2
Landslide
Depressed Material
Mons Type 1
Mons Type 2
Patterned Ground Type 1
Patterned Ground Type 2
Rough Terrain
Smooth Terrain
Smooth Terrain, Elevated
Crater
References &Acknowledgments[1] Cheng, A.F. et al. (2008) Long-Range Re-
connaissance Imager on New Horizons. Space Sci. Rev. 140, 187-215. doi: 10.1007/s11214-007-9271-6.
[2] Reuter, D.C. et al. (2008) Ralph: A Visible/In-frared Imager for the New Horizons Plu-to/Kuiper Belt Mission. Space Sci. Rev. 140, 129-154. doi: 10.1007/s11214-008-9375-7.
[3] Schenk, P. et al. (2016) Topography of Pluto and Charon: Impact Cratering. Lunar & Planet. Sci. Conf. 47, Abstract #2795.
[4] Robbins, S.J. et al. (2017) Craters of the Pluto-Charon System. Icarus 287, 187-206. doi: 10.1016/j.icarus.2016.09.027.
[5] Beyer, R.A. et al. (2017) Charon Tectonics. Icarus 287, 161-174. doi: 10.1016/j.icarus.2016.12.018.
[6] Beyer, R.A. et al. (in prep.) Geology of Char-on’s Smooth Southern Plains. in prep. for Icarus.
This work was funded by NASA’s New Horizons mission.
Data SourcesBasemap: Panchromatic LORRI [1] and MVIC [2] images at up to 160 m/px. Mapping area pixel scale at least 850 m/px. Solar in-cidence and emission angles are non-uniform and this, with non-uniform pixel scale across datasets, complicates mapping.
Topography: Solutions over most of the encounter hemisphere at up to 100 m accuracy, down to 850 m accuracy [3].
Composition: 4-color mosaics from MVIC at 650 and 1500 m/px. Hyperspectral imaging at 5,000 m/px of most of encounter hemisphere, composition maps are in progress to new basemap.
Crater Maps: Craters from [4] and D ≥ 15 km used in this map.
Incidence & Emission Angles
-90
-60
-30
0
30
60
90
Latit
ude
360270180900
Longitude
90
80
70
60
50
40
30
20
10
0
Incidence Angle (0°=noon, 90°=terminator)
-90
-60
-30
0
30
60
90
Latit
ude
360270180900
Longitude
90
80
70
60
50
40
30
20
10
0
Emission Angle (0°=directly below
spacecraft)
area in permanent winter for next several decades
area in permanent winter for next several decades
Pixel Scale
-90
-60
-30
0
30
60
90
Latit
ude
360270180900
Longitude
0.1
2
3456
1
2
3
456
10
2
34
Pixel Scale (km/px)
16
14
12
10
8
6
4
2
0
Perc
ent
of S
urfa
ce p
er P
ixel
Sca
le
6 80.1
2 4 6 81
2 4 6 810
2 4
Pixel Scale (km/px)
100
80
60
40
20
0
Cumulative Percent of Surface per Pixel Scale
Histogram Cumulative
19.6% of surface not observedmapping area
area in permanent winter for next several decades
Mapping ProgressDone: Mapped global tectonics [5] and Vulcan Planum area [6] using SPICE from Sept. 2016.
In Progress: Redrafting to March 2017 SPICE; extending map northwards based on albedo rather than topography.
To Do:• Merge shadow/topography-based
map (south) with albedo (north) map units if possible
• Incorporate topography and min-eralogy
• Develop chronostratigraphy.
Mapping DetailsGlobal
Approximate Map Area: 60% of disk*
Full Map Scale: 1:3Mprinted map 50”
Mapping Scale (6×): 1:500,000
Vertex Spacing: 2.5 km (⅘ mm)
Min. Crater: 30 km (1 cm)
Min. Feature Length: 15 km (½ cm)
Min. Unit: 250 km2
*Map area covers images taken within a few hours of closest approach and closely corre-sponds with the areas imaged at ≲1 km/px. Southern margin of “map boundary” corre-sponds to terminator topography and is not fully reflected in incidence / emission angle and pixel scale maps. Area is ≈2,800,000 km2.
Vulcan Planum (informal name)
Approximate Map Area: 485,000 km2
Scale: 1:500,000
Mapping Scale: 1:100,000
Vertex Spacing: 2.5 km
Min. Crater: 15 km (3 cm)
Min. Feature Length: 5 km (1 cm)
Min. Unit: 50 km2
example of offset due to different versionsof the basemap being used; all lines mustbe redrafted to the same, most recent solution