LP 944-20 is a dim
brown dwarf of
spectral class M9 located 21
light-years from the
Solar System in the constellation of
Fornax. With a visual
apparent magnitude of 18.69, it has one of the dimmest visual magnitudes listed on the
RECONS page. It is one of the brightest brown dwarfs, if not the brightest at JMKO=10.68±0.03 mag.[7]
Discovery
LP 944-20 was discovered in the
Luyten-Palomar Survey. It appears as a star with R=17.5 mag with a proper motion of 334 mas/yr in a catalog from 1979.[8] It was however first published in 1975 by
Luyten &
Kowal.[9][10] It was re-discovered in the APM survey, a
quasar survey, in which the red color was noticed. The first
spectrum was published in 1997 by
Kirkpatrick,
Henry &
Irwin. A spectral type of M9 or later was assigned in this work and a distance of around 5 parsec was established thanks to the parallax being measured.[10] In 1998
Tinney discovered that this M-dwarf shows the 6708
Å Lithium absorption line and
H-alpha emission line, which helped to constrain the age to around 500 million years and established it as a brown dwarf with a mass of around 60
MJ.[11]
Physical characteristics
Short after LP 944-20 was established as a brown dwarf, the fast rotation was detected in 1998.[12] Later a work in 1999 claimed to have detected variability in LP 944-20.[13] A search for dust around LP 944-20 has shown that it has no disk.[14]
Due to short rotational period, this young brown dwarf is displaying strong and frequent X-ray flares, and possessing a strong magnetic field reaching 135
G at the
photosphere level.[5] On 15 December 1999, an
X-rayflare was detected.[15][16] On 27 July 2000, radio emission (in flare and quiescence) was detected from this brown dwarf by a team of students at the
Very Large Array.[17]
Observations published in 2007 showed that the atmosphere of LP 944-20 contains much
lithium and that it has dusty
clouds.[18] A search for planets was carried out in 2006 using the radial velocity method. No planets were found, but variability with an amplitude of 3.5 km/s was detected. This variability is likely due to weather effects and the rotation of the brown dwarf.[19]
In 2015 high resolution
Doppler images were taken of LP 944-20 and
GJ 791.2A. The time series spectra show line profile distortions, which were interpreted as
starspots. These starspots were reconstructed and found to be concentrated at high
latitudes. The modelling produces a better fit of ΔT=200
K (−73
°C; −100
°F) between starspots (Tspot=2,100 K (1,830 °C; 3,320 °F)) and
photosphere (Tphot=2,300 K (2,030 °C; 3,680 °F)).[20]
In a large program in 2016 the spectral type was established to be M9β in the optical and L0β in the infrared. The beta stands for a surface gravity intermediate between normal and low. The mass was calculated to be 29.62±16.67 MJ.[2]
Observations with
TESS found that LP 944-20 is variable with a period of around 3.8 hours and an
amplitude of 1,760±100
ppm.[6] This is in agreement with previous estimates of a period of less than 4.5 hours.[5]
^Berger, E.; Ball, S.; Becker, K. M.; Clarke, M.; Frail, D. A.; Fukuda, T. A.; Hoffman, I. M.; Mellon, R.; Momjian, E.; Murphy, N. W.; Teng, S. H.; Woodruff, T.; Zauderer, B. A.; Zavala, R. T. (2001-03-15). "Discovery of radio emission from the brown dwarf LP944-20". Nature. 410 (6826): 338–340.
arXiv:astro-ph/0102301.
Bibcode:
2001Natur.410..338B.
doi:
10.1038/35066514.
PMID11268202.
S2CID4411256.