KRC for Exoplanets
A user can define the orbital parameters of any body rotating around any star. PORB generates the rotation matrix accordingly.
Two approaches exist: one most suited for bodies where the orbital parameters are very precisely known, and one with more generic orbital parameters.
Option 1
Run PORB to create a structure that can be ingested to generate the orbital rotation matrix. The following arguments are needed:
- e: Eccentricity (Default=0)
- a: Semi-Major Axis in AU (Default=1)
- i: Inclination of mean orbit to ecliptic in degrees (Default=0)
- node: Longitude of the ascending node in degrees (Default=0)
- per: Argument of perihelion in degrees (Default=0)
- m: Mean Anomaly at epoch in degrees (Default=0)
- rot_per: sideral rotation period in hours (Default=23.9345)
- polera: Right Ascension of the pole in degrees (Default=0)
- merid: Prime meridian at epoch in degrees (Default=0)
- poledec: Declination of the pole in degrees (Default=0)
- period: Sideral orbital period in Earth days (Default=365.256)
- name: Body name (default ="None")
Then run generic_porb() with these arguments, for example:
tmp = generic_porb(e=0,a=1.,i=1.3,node=100.4,peri=293.9,m=79.6,rot_per=200.,polera=273.8,poledec=0.,merid=7.7, period=4332.5,name="IdealJupiterTrojan")
Option 2
Run PORB to create a structure that can be ingested to generate the orbital rotation matrix. The following arguments are needed:
- name: Body name (default ="None")
- Vismag: Visual Magnitude of host star; used to derive a correction factor for SOLCON. 0 is recommended, and set SOLCON
- epoch: Time of periastron as full Julian date ; 2000 Jan 1 noon UTC= 2451545.0
- DisEarth: Distance from Earth to host star, in lightyears. 0 is recommended, and set SOLCON
- a: Semi-Major Axis in AU (Default=1)
- period: Sideral orbital period in Earth days (Default=365.256)
- e: Eccentricity (Default=0)
- Obliq: Obliquity of planet pole, in degree
- Lsperi: Season (Ls) at periastron, in degree
- rot_per: sideral rotation period in hours (Default=23.9345)
Then run KRC using this new body as the "body":
out = krc(lat=0.,lon=0,INERTIA=20.,ALBEDO=.05,LKofT="F",body=tmp)
This case above assumes the Sun as the central star. Any star can be defined by setting SOLCON (solar constant defined as the total stellar irradiance at 1AU in W/m^2. In the solar system, SOLCON ~ 1,361 W/m2.
out = krc(lat=0.,lon=0,INERTIA=20.,ALBEDO=.05,LKofT="F",body=tmp,SOLCON=2722.)
The case above assumes a start outputting twice as much energy as the Sun ("Super Sun").
Example of surface temperatures for airless body around a warm Sun.
