We investigate the effect of the magnetic fields of M dwarf (dM) stars on potentially habitable Earth-like planets. These fields can reduce the size of planetary magnetospheres to such an extent that a significant fraction of the planet’s atmosphere may be exposed to erosion by the stellar wind. We used a sample of 15 active dM stars, for which surface magnetic-field maps were reconstructed, to determine the magnetic pressure at the planet orbit and hence the largest size of its magnetosphere, which would only be decreased by considering the stellar wind. Our method provides a fast means to assess which planets are most affected by the stellar magnetic field, which can be used as a first study to be followed by more sophisticated models. We...
Recent results showed that the magnetic field of M-dwarf (dM) stars, currently the main targets in s...
2 pages, 1 figure, to appear in the proceedings of the IAUS 302 "Magnetic fields throughout stella...
2 pages, 1 figure, to appear in the proceedings of the IAUS 302 "Magnetic fields throughout stella...
We investigate the effect of the magnetic fields of M dwarf (dM) stars on potentially habitable Eart...
We investigate the effect of the magnetic fields of M dwarf (dM) stars on potentially habi...
We investigate the effect of the magnetic fields of M dwarf (dM) stars on potentially habitable Eart...
We investigate the effect of the magnetic fields of M dwarf (dM) stars on potentially habitable Eart...
International audienceWe investigate the effect of the magnetic fields of M dwarf (dM) stars on pote...
We investigate the effect of the magnetic fields of M dwarf (dM) stars on potentially habitable Eart...
International audienceWe investigate the effect of the magnetic fields of M dwarf (dM) stars on pote...
International audienceWe investigate the effect of the magnetic fields of M dwarf (dM) stars on pote...
We investigate the effect of the magnetic fields of M dwarf (dM) stars on potentially habitable Eart...
We investigate the effect of the magnetic fields of M dwarf (dM) stars on potentially habitable Eart...
Abstract. Recent results showed that the magnetic field of M-dwarf (dM) stars, currently the main ta...
2 pages, 1 figure, to appear in the proceedings of the IAUS 302 "Magnetic fields throughout stella...
Recent results showed that the magnetic field of M-dwarf (dM) stars, currently the main targets in s...
2 pages, 1 figure, to appear in the proceedings of the IAUS 302 "Magnetic fields throughout stella...
2 pages, 1 figure, to appear in the proceedings of the IAUS 302 "Magnetic fields throughout stella...
We investigate the effect of the magnetic fields of M dwarf (dM) stars on potentially habitable Eart...
We investigate the effect of the magnetic fields of M dwarf (dM) stars on potentially habi...
We investigate the effect of the magnetic fields of M dwarf (dM) stars on potentially habitable Eart...
We investigate the effect of the magnetic fields of M dwarf (dM) stars on potentially habitable Eart...
International audienceWe investigate the effect of the magnetic fields of M dwarf (dM) stars on pote...
We investigate the effect of the magnetic fields of M dwarf (dM) stars on potentially habitable Eart...
International audienceWe investigate the effect of the magnetic fields of M dwarf (dM) stars on pote...
International audienceWe investigate the effect of the magnetic fields of M dwarf (dM) stars on pote...
We investigate the effect of the magnetic fields of M dwarf (dM) stars on potentially habitable Eart...
We investigate the effect of the magnetic fields of M dwarf (dM) stars on potentially habitable Eart...
Abstract. Recent results showed that the magnetic field of M-dwarf (dM) stars, currently the main ta...
2 pages, 1 figure, to appear in the proceedings of the IAUS 302 "Magnetic fields throughout stella...
Recent results showed that the magnetic field of M-dwarf (dM) stars, currently the main targets in s...
2 pages, 1 figure, to appear in the proceedings of the IAUS 302 "Magnetic fields throughout stella...
2 pages, 1 figure, to appear in the proceedings of the IAUS 302 "Magnetic fields throughout stella...