do not follow here
Stellar Catalog
more icon
Nearby stars catalogue
more icon
LP 736-31
more icon

Star LP 736-31

Red dwarf LP 736-31 is located 68 light years away from the Sun. It is a single star of spectral class M4.0, that has typically about 25 % of solar mass. For now, there are no known exoplanets in this star system.
Sun distance
68 light years

LP 736-31

Red dwarf (spectral class M4.0)

Location

Ascension iconRight ascension: 12h 44m 30.747s
Declination iconDeclination: -11° 42' 17.407'' (equatorial region)
Parallax iconParallax: 48.034
Distance iconSun distance: 67.902 ly | 20.8 pc

Basic characteristic

icon weight
Mass: 30 % M Sun | 261.9 M Jupiter (estimate)
radius icon
Size: 30 % R Sun | 2.6 R Jupiter (estimate)
(No known exoplanets yet)

Photometry

Magnitude iconApparent magnitude (V): 14.2
Magnitude iconAbsolute magnitude (V): 12.6
5
10
15
20
25
30
35
K
2.1
H
1.6
J
1.2
Grp
0.8
I
0.8
G
0.6
V
0.5
Gbp
0.5
B
0.4
U
0.3
Absolute stellar magnitude in different parts of the electromagnetic spectrum from infrared (K band) to ultraviolet (U band).
More about LP 736-31
      LP 736-31 can be found in southern celestial hemisphere, however it is too dim to be seen with the naked eye or even a small telescope. 
Other designations of this star
Gaia EDR3 3530280499598321792
External sources
simbad icon
Simbad database (LP 736-31)
Astronomical database SIMBAD (the Set of Identifications, Measurements and Bibliography for Astronomical Data)
gaia icon
Gaia database (Gaia EDR3 3530280499598321792)
Archive from the Gaia mission
Class of stars Red dwarf
Red dwarfs are small reddish stars, that are by far the most common type of star in solar neighborhood. Their mass is usually between 10 and 50 % of solar mass.
Closest stars

VHS 1256-1257
0.09 M☉ 3.8 ly

LP 676-30
- 4.7 ly

HD 112758
- 5.3 ly

UPM J1231-1529
- 6.4 ly

Ross 948
- 6.4 ly
3D map of stellar neighborhood
List of all nearby stars
Get your next news from nearby stars
This is a new project, and partly still in development. There will be soon more information and functions. We would love your support on social media.