Add to ORKGContext. The environs of massive, early-type stars have been inspected in recent years in the search for sites where particles can be accelerated up to relativistic energies. Wind regions of massive binaries that collide have already been established as sources of high-energy emission; however, there is a different scenario for massive stars where strong shocks can also be produced: the bow-shaped region of matter piled up by the action of the stellar strong wind of a runaway star interacting with the interstellar medium. Aims. We study the bow-shock region produced by a very massive runaway star, BD+43°3654, to look for nonthermal radio emission as evidence of a relativistic particle population. Methods. We observed the field of BD+43°3654...
Context. Runaway stars produce bowshocks that are usually observed at infrared (IR) wavelengths. Non...
Context: Runaway stars form bow shocks by ploughing through the interstellar medium at supersonic sp...
Runaway stars produce shocks when passing through interstellar medium at supersonic velocities. Bow ...
Context. The environs of massive, early-type stars have been inspected in recent years in the search...
Context. The environs of massive, early-type stars have been inspected in recent years in the search...
We present a study of the radio emission from a massive runaway star. The star forms a bow shock tha...
Context. In recent years, winds from massive stars have been considered promising sites for investig...
Context. Runaway massive stars are O-and B-type stars with high spatial velocities with respect to t...
Since the detection of nonthermal radio emission from the bow shock of the massive runaway star BD +...
The very massive runaway star BD+43° 3654 (O4 If) seems to be related with a bow shock detected by t...
Context. Runaway O- and early B-type stars passing through the interstellar medium at supersonic vel...
Context. Runaway O- and early B-type stars passing through the interstellar medium at supersonic vel...
The bow shock produced by the high-mass runaway star BD +43° 3654 (Comerón & Pasquali 2007) has been...
Non-thermal radiation has been predicted within bow shocks around runaway stars by recent theoretica...
Context. Runaway stars produce bowshocks that are usually observed at infrared (IR) wavelengths. Non...
Context: Runaway stars form bow shocks by ploughing through the interstellar medium at supersonic sp...
Runaway stars produce shocks when passing through interstellar medium at supersonic velocities. Bow ...
Context. The environs of massive, early-type stars have been inspected in recent years in the search...
Context. The environs of massive, early-type stars have been inspected in recent years in the search...
We present a study of the radio emission from a massive runaway star. The star forms a bow shock tha...
Context. In recent years, winds from massive stars have been considered promising sites for investig...
Context. Runaway massive stars are O-and B-type stars with high spatial velocities with respect to t...
Since the detection of nonthermal radio emission from the bow shock of the massive runaway star BD +...
The very massive runaway star BD+43° 3654 (O4 If) seems to be related with a bow shock detected by t...
Context. Runaway O- and early B-type stars passing through the interstellar medium at supersonic vel...
Context. Runaway O- and early B-type stars passing through the interstellar medium at supersonic vel...
The bow shock produced by the high-mass runaway star BD +43° 3654 (Comerón & Pasquali 2007) has been...
Non-thermal radiation has been predicted within bow shocks around runaway stars by recent theoretica...
Context. Runaway stars produce bowshocks that are usually observed at infrared (IR) wavelengths. Non...
Context: Runaway stars form bow shocks by ploughing through the interstellar medium at supersonic sp...
Runaway stars produce shocks when passing through interstellar medium at supersonic velocities. Bow ...