TY  - JOUR
AU  - Lampón, M.
AU  - López-Puertas, M.
AU  - Czesla, S.
AU  - Sánchez-López, A.
AU  - Lara, L. M.
AU  - Salz, M.
AU  - Sanz-Forcada, J.
AU  - Molaverdikhani, K.
AU  - Quirrenbach, A.
AU  - Pallé, E.
AU  - Caballero, J. A.
AU  - Henning, Th.
AU  - Nortmann, L.
AU  - Amado, P. J.
AU  - Montes Gutiérrez, David
AU  - Reiners, A.
AU  - Ribas, I.
PY  - 2021
DO  - 10.1051/0004-6361/202140423
SN  - 0004-6361
UR  - https://hdl.handle.net/20.500.14352/8188
T2  - Astronomy & Astrophysics
AB  - Hydrodynamic escape is the most efficient atmospheric mechanism of planetary mass loss and has a large impact on planetary evolution. Three hydrodynamic escape regimes have been identified theoretically: energy-limited, recombination-limited, and...
LA  - eng
PB  - EDP Sciencies
KW  - planets and satellites-atmospheres
KW  - planets and satellites-gaseous planets
KW  - planets and satellites-individual GJ 3470 b
KW  - planets and satellites-individual HD 209458 b
KW  - planets and satellites-individual HD 189733 b
TI  - Evidence of energy-, recombination-, and photon-limited escape regimes in giant planet H/He atmospheres
TY  - journal article
VL  - 648
ER  -