Add to ORKGRecent radio observations support a picture for star formation where there is accretion of matter onto a central protostar with the ejection of molecular outflows that can affect the surrounding medium. The impact of a supersonic outflow on the ambient gas can produce a strong shock that could accelerate particles up to relativistic energies. A strong evidence of this has been the detection of non-thermal radio emission coming from the jet termination region of some young massive stars. In the present contribution, we study the possible high-energy emission due to the interaction of relativistic particles, electrons and protons, with the magnetic, photon and matter fields inside a giant molecular cloud. Electrons lose energy via relativisti...
The young stellar object IRAS 16547-4247, identified with a massive protostar, presents a highly col...
Giant molecular clouds (GMCs) are a new population of gamma-ray sources, being the target of cosmic ...
Massive protostars have associated bipolar outflows that can produce strong shocks when they interac...
Recent radio observations support a picture for star formation where there is accretion of matter on...
Context.Massive stars form in dense and massive molecular cores. The exact formation mechanism is un...
Context. Massive protostars have associated bipolar outflows with velocities of hundreds of km s-1. ...
Massive protostars have associated bipolar outflows with velocities of hundreds of km s-1. Such outf...
Massive protostars have associated bipolar outflows with velocities of hundreds of km s-1. Such outf...
Thermal radio and X-ray emission has been traditionally associated with the formation of stars. Howe...
Dense populations of stars surround the nuclear regions of galaxies. In active galactic nuclei, thes...
Protostellar jets are present in the later stages of the stellarformation. Non-thermal radio emissio...
We study the interaction of early-type stars with the jets of active galactic nuclei. A bow-shock wi...
The study of the formation of massive stars presents complex challenges from both theoretical and ob...
The young stellar object IRAS 16547-4247, identified with a massive protostar, presents a highly col...
Giant molecular clouds (GMCs) are a new population of gamma-ray sources, being the target of cosmic ...
Massive protostars have associated bipolar outflows that can produce strong shocks when they interac...
Recent radio observations support a picture for star formation where there is accretion of matter on...
Context.Massive stars form in dense and massive molecular cores. The exact formation mechanism is un...
Context. Massive protostars have associated bipolar outflows with velocities of hundreds of km s-1. ...
Massive protostars have associated bipolar outflows with velocities of hundreds of km s-1. Such outf...
Massive protostars have associated bipolar outflows with velocities of hundreds of km s-1. Such outf...
Thermal radio and X-ray emission has been traditionally associated with the formation of stars. Howe...
Dense populations of stars surround the nuclear regions of galaxies. In active galactic nuclei, thes...
Protostellar jets are present in the later stages of the stellarformation. Non-thermal radio emissio...
We study the interaction of early-type stars with the jets of active galactic nuclei. A bow-shock wi...
The study of the formation of massive stars presents complex challenges from both theoretical and ob...
The young stellar object IRAS 16547-4247, identified with a massive protostar, presents a highly col...
Giant molecular clouds (GMCs) are a new population of gamma-ray sources, being the target of cosmic ...
Massive protostars have associated bipolar outflows that can produce strong shocks when they interac...