The Exoplanet HandbookCambridge University Press, 30 de ago. de 2018 - 952 páginas With the discovery of planets beyond our solar system 25 years ago, exoplanet research has expanded dramatically, with new state-of-the-art ground-based and space-based missions dedicated to their discovery and characterisation. With more than 3,500 exoplanets now known, the complexity of the discovery techniques, observations and physical characterisation have grown exponentially. This Handbook ties all these avenues of research together across a broad range of exoplanet science. Planet formation, exoplanet interiors and atmospheres, and habitability are discussed, providing in-depth coverage of our knowledge to date. Comprehensively updated from the first edition, it includes instrumental and observational developments, in-depth treatment of the new Kepler mission results and hot Jupiter atmospheric studies, and major updates on models of exoplanet formation. With extensive references to the research literature and appendices covering all individual exoplanet discoveries, it is a valuable reference to this exciting field for both incoming and established researchers. |
Conteúdo
Radial velocities | 17 |
Astrometry | 81 |
Timing | 103 |
Microlensing | 120 |
Magnification maps | 127 |
Transits | 153 |
Imaging | 329 |
Host stars | 373 |
Brown dwarfs and freefloating planets | 429 |
Formation and evolution | 449 |
Interiors and atmospheres | 559 |
The solar system | 649 |
Termos e frases comuns
accretion adaptive optics amplitude angular arcsec astrometric atmospheric axis barycentre binary brown dwarfs candidates characterisation close-in companion core coronagraph debris disks density detection discovery Doppler dust dynamical eccentricity effects emission Equation estimated exoplanet Fe/H Figure flux frequency Gaia Galactic gas giants giant planets gravitational habitable zone Hipparcos host star hot Jupiters imaging infrared IOP Publishing/AAS Kepler lens light curve low-mass magnetic main sequence measurements metallicity microlensing migration models multi-planet systems multiple objects observations orbital period parameters permission of IOP perturbations phase photometric planet formation planet hosts planet mass planetesimals planets orbiting precession protoplanetary disk pulsar radial velocity radii radius ratio relative sample scale secondary eclipse semi-major simulations solar system spectral spectroscopy star spots stellar rotation surface surveys targets Teff telescope temperature tidal tion transit duration transit timing variations transiting planets TTVs wavelengths white dwarf