Category:Asteroids
| Line 7: | Line 7: | ||
* Define the body type | * Define the body type | ||
| − | <u>''Planets and Pluto''</u> | + | <u>''Planets and Pluto''</u> : No need to define bodytype |
Mercury(!!!), Venus, Earth, Mars, Jupiter(!!!), Saturn(!!!), Uranus(!!!), Neptune(!!!), and Pluto can be modeled. | Mercury(!!!), Venus, Earth, Mars, Jupiter(!!!), Saturn(!!!), Uranus(!!!), Neptune(!!!), and Pluto can be modeled. | ||
Revision as of 15:35, 8 November 2016
Running KRC for Non-Tidally Locked Airless Bodies
KRC can predict surface and subsurface temperatures for asteroids, comets, or any non-tidally locked body.
The ability to work with tidally locked body will be developed in the future, but is not yet available.
- Define the body type
Planets and Pluto : No need to define bodytype
Mercury(!!!), Venus, Earth, Mars, Jupiter(!!!), Saturn(!!!), Uranus(!!!), Neptune(!!!), and Pluto can be modeled. !!!: tidally locked or no rocky surface
Over 3200 comets are supported
Comets
A list of comets currently supported is provided here
Over 3200 comets are supported
Asteroids
A list of asteroids currently supported is provided here
Over 3200 comets are supported
dv> out=krc(lat=0.,body="Bennu",bodytype="minor",PTOTAL=0.) dv>
TAURAT: Ratio of thermal to visible opacity of dust
DUSTA: Single scattering albedo of dust
ARC2: Henyey-Greenstein asymmetry factor
KRC assumes broadband atmospheric opacities, but the default values are given a specific wavelengths.
1. VIS/9μm dust opacity ratio is ~2:1 (M. Smith personal communication);
2. 9μm to broadband TIR ratio is 2.5:1 (ratio of maximum and average values of the dust opacity spectrum from Bandfield and Smith, [2003], Figure 3);
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