Add to ORKGExoplanets in extremely close-in orbits are immersed in a local interplanetary medium (i.e. the stellar wind) much denser than the local conditions encountered around the Solar system planets. The environment surrounding these exoplanets also differs in terms of dynamics (slower stellar winds, but higher Keplerian velocities) and ambient magnetic fields (likely higher for host stars more active than the Sun). Here, we quantitatively investigate the nature of the interplanetary media surrounding the hot Jupiters HD46375b, HD73256b, HD102195b, HD130322b and HD179949b. We simulate the three-dimensional winds of their host stars, in which we directly incorporate their observed surface magnetic fields. With that, we derive mass-loss rates (1.9-8...
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Context. The search for radio emission from extra-solar planets has so far been unsuccessful. Much o...
V.S. acknowledges the support of an STFC studentship. A.A.V. acknowledges support from a Royal Astro...
International audienceMagnetised exoplanets are expected to emit at radio frequencies analogously to...
AAV acknowledges support from the Swiss National Science Foundation through an Ambizione Fellowship....
We present stellar wind modelling of the hot Jupiter host HD189733, and predict radio emission from ...
Abstract. The great majority of exoplanets discovered so far are orbiting cool, low-mass stars whose...
We present the results of a comprehensive numerical simulation of the environment around three exopl...
Magnetised exoplanets are expected to emit at radio frequencies analogously to the radio auroral emi...
Context. The first tentative detection of a magnetic field on the hot-Jupiter-type exoplanet τ Boöti...
The winds of hot massive stars and hot giant planets grant us insight into the mechanisms by which t...
Like the magnetized planets in our Solar system, magnetized exoplanets should emit strongly at radio...
Since 1995, more than 150 extrasolar planets were detected, of which a considerable fraction orbit t...
The relatively high contrast between planetary and solar low frequency radio emissions suggests that...
Context. The search for radio emission from extra-solar planets has so far been unsuccessful. Much o...
Context. The search for radio emission from extra-solar planets has so far been unsuccessful. Much o...
V.S. acknowledges the support of an STFC studentship. A.A.V. acknowledges support from a Royal Astro...
International audienceMagnetised exoplanets are expected to emit at radio frequencies analogously to...
AAV acknowledges support from the Swiss National Science Foundation through an Ambizione Fellowship....
We present stellar wind modelling of the hot Jupiter host HD189733, and predict radio emission from ...
Abstract. The great majority of exoplanets discovered so far are orbiting cool, low-mass stars whose...
We present the results of a comprehensive numerical simulation of the environment around three exopl...
Magnetised exoplanets are expected to emit at radio frequencies analogously to the radio auroral emi...
Context. The first tentative detection of a magnetic field on the hot-Jupiter-type exoplanet τ Boöti...
The winds of hot massive stars and hot giant planets grant us insight into the mechanisms by which t...
Like the magnetized planets in our Solar system, magnetized exoplanets should emit strongly at radio...
Since 1995, more than 150 extrasolar planets were detected, of which a considerable fraction orbit t...
The relatively high contrast between planetary and solar low frequency radio emissions suggests that...
Context. The search for radio emission from extra-solar planets has so far been unsuccessful. Much o...
Context. The search for radio emission from extra-solar planets has so far been unsuccessful. Much o...
V.S. acknowledges the support of an STFC studentship. A.A.V. acknowledges support from a Royal Astro...
International audienceMagnetised exoplanets are expected to emit at radio frequencies analogously to...
