Imaginary Picture of ISO 2I

Display orbital revolution of ISO 2I around the hoststar Sun
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Exoplanet Name : ISO 2I
Alternate Name : "C/2019 Q4 (Borisov), Borisov"
Status : Confirmed
Radius (Rjup / Re): 0.0000 (Rjup) 0.0000 (Rearth)
Mass (Mjup / Me): 0.0000 (Mjup) 0.0000 (Mearth)
Semi Major Axis / Orbital Distance Calculated 0.0000 (AU) 0.0000 (AU Est.)
Eccentricity : 3.1550
Orbital Period(Yrs) 0.0000
Orbital Period(Observed/Estimated) 0.00 (Days Obs.) 0.00 (Days Est.)
Surface Gravity (G Earth) nan
Star Radiation at Atmospheric Boundary: 0.0 (W/m2)
Measured Temperature (K) 0.0 (K)
Blackbody T 0.1(K) 0.0 (K)
Blackbody T 0.3(K) 0.0 (K)
Blackbody T 0.7(K) 0.0 (K)
Tidally Locked Blackbody T 0.1(K) 0.0 (K)
Tidally Locked Blackbody T 0.3(K) 0.0 (K)
Size Class: Asteroid-size
Mass Class:
Detection Type : Imaging
Mass Detection :
Radius Detection :
Habitability by Solar Eq. Astronomical Unit: Not habitable
Habitability by Kopparapu: Not habitable
Star Name : Sun
Alternate Name :
Star Distance(LY) : 0.0
Stellar Radius(Rsun) : 1.0 (Rsun Measured)
Stellar Mass(Msun) : 1.0 (Msun Measured) 0.0 (Msun Estimated)
Star Age : 0.0 (GY)
Temperature : 3300 (K)
Spectral type : M9
UV portion[%]: 7.8
Visible portion[%]: 44.8
IR portion[%]: 47.4
Metalicity : 0.0
Absolute Magnitude: 25.0
Apparent Magnitude: 22.0
Right Ascension(RA) 0.0000
Declination (DEC) 0.0000
Hubble Space Telescope Guide Star Catalog (GSC) ID
Discovered by
Discovery Paper - Authors
Discovery Paper - Title
Discovery Paper - Journal
Discovery Paper - URL
SIMBAD LINK
Open Exoplanet Database Link
ISO 2I
ISO 2I

  • ISO 2I is an exoplanet orbiting the star Sun. Its discovery was publicly announced on 2019.
  • The host star Sun has apparent magnitude of 22.0, with absolute magnitude of 25.0.
  • It is 1.0 times more massive and 1.0 times bigger compared with our Sun. The surface temperature is 3300 with its spectral types of M9
  • (Projected orbit of ISO 2I around its host star Sun)


  • The Star Sun 's habitable zone is located at the following distance
  • Inner Boundary (the orbital distance at Venus's Equivalent Radiation ) : 0.236 AU ( 35292790.0 km)
  • Earth Boundary (the orbital distance at Earth's Equivalent Radiation) : 0.326 AU ( 48783858.9 km)
  • Outer Boundary (the orbital distance at Mars's Equivalent Radiation) : 0.497 AU ( 74335805.1 km)
  • Snow Line (the orbital distance at Snow Line Equivalent Radiation) : 0.731 AU ( 109388393.7 km)
  • Radiation at Planetary Boundary of ISO 2I : 0.00 W/m2

    (Habitable zone calculated based on SEAU(Solar Equivalent Astronomical Unit) around the star Sun)



  • Kopparapu Recent Venus for Star Sun distance : 0.267 AU
  • Kopparapu Runaway Greenhouse for Earth-sized planet for Star Sun distance : 0.338 AU
  • Kopparapu Runaway Greenhouse for Super-Earth-sized planet for Star Sun distance : 0.326 AU
  • Kopparapu Runaway Greenhouse for Mars-sized planet for Star Sun distance : 0.359 AU
  • Kopparapu Outer Boundary for Maximum Greenhouse for Star Sun distance : 0.664 AU
  • Kopparapu Outer Boundary for Early Mars for Star Sun distance : 0.701 AU

    (Habitable zone calculated based on Kopparapu et al.(2013) around the star Sun)



  • Original Kopparapu Recent Venus for Star Sun distance : 0.265 AU
  • Original Kopparapu Runaway Greenhouse for Star Sun distance : 0.350 AU
  • Original Kopparapu Moist Greenhouse for Star Sun distance : 0.351 AU
  • Original Kopparapu Outer Boundary for Maximum Greenhouse for Star Sun distance : 0.675 AU
  • Original Kopparapu Outer Boundary for Early Mars for Star Sun distance : 0.702 AU

    (Habitable zone calculated based on Kopparapu et al.(Original) around the star Sun)



    (Position in Stellar Map of star Sun and its Exoplanet ISO 2I)



    (Zoomed position in Stellar Map of star Sun and its Exoplanet ISO 2I (zoom level 3))

    (Synthetic Spectrum of star Sun*)
    *Yamashiki YA et al. 2019 ApJ 881 114
    MUSCLES Paper I - France et al. 2016 ApJ 820 89
    MUSCLES Paper II- Youngblood et al. 2016 ApJ 824 101
    MUSCLES Paper III- Loyd et al. 2016 ApJ 824 102