Bibcode
Israelian, G.
Referencia bibliográfica
"Evolution of Cosmic Objects through their Physical Activity, Proceedings of the Conference dedicated to Viktor Ambartsumian's 100th anniversary, held 15-18 Sep 2008 in Yerevan and Byurakan, Armenia, Editors: H.A. Harutyunian, A.M. Mickaelian & Y. Terzian, Yerevan, "Gitutyun" Publishing House of NAS RA, p. 318-337"
Fecha de publicación:
11
2010
Número de citas
1
Número de citas referidas
1
Descripción
Extrasolar planetas (exoplanets), or planets orbiting stars other than
our own Sun, are a relatively new field of the astronomical and
planetary sciences. After the discovery of Pluto in 1930, planet-finding
activities appeared to have reached an end for the foreseeable future.
Several brown dwarfs have been discovered between 1930 and 1993 orbiting
other solar-type star. Brown dwarfs (or "failed stars") are low-mass
celestial objects (M?10MJUP) that formed by stellar processes but did
not obtain the critical mass required to sustain hydrogen burning within
their core. Other claims for planetary detections were also made during
the period 1944 - 1970 but were never verified or were later shown to be
false, produced by timing artifacts or instrumentation errors. The first
confirmed detection of an extrasolar planet occurred in 1992 when two
bodies were found to be orbiting the millisecond pulsar PSR 1257+12
(Wolszczan and Frail, 1992). The first detection of an extrasolar planet
orbiting a solar-type star occurred in 1994 with the claim of a
Jupiter-type planet orbiting 51 Pegasi (Mayor and Queloz, 1995). As of
January 2010, we currently know of 429 planets orbiting solar-type stars
The vast majority of these detections have occurred via the radial
velocity method (Udry & Santos 2007), although other methods such as
that of transiting photometry and microlensing may become increasingly
important in future planet searches as we seek to detect
terrestrial-sized planetary bodies and utilize space- based observing
programs.