Add to ORKGMost stars form as members of large associations within dense, very cold (10 to 100 kelvin) molecular clouds. The nearby giant molecular cloud in Orion hosts several thousand stars of ages less than a few million years, many of which are located in or around the famous Orion Nebula, a prominent gas structure illuminated and ionized by a small group of massive stars (the Trapezium). We present x-ray observations obtained with the X-ray Multi-Mirror satellite XMM-Newton, revealing that a hot plasma with a temperature of 1.7 to 2.1 million kelvin pervades the southwest extension of the nebula. The plasma flows into the adjacent interstellar medium. This x-ray outflow phenomenon must be widespread throughout our Galaxy
The centre of the Milky Way hosts several high-energy processes that have strongly affected the inne...
This study presents first results from an X-ray mini-survey carried out with XMM-Newton to investiga...
Most of the young stars in the Orion Trapezium Cluster are much more peculiar in X-rays than expecte...
International audienceMost stars form as members of large associations within dense, very cold (10 t...
Aims. We use new deep XMM-Newton observations of the northern disc of M31 to trace the hot interstel...
Aims. We use new deep XMM-Newton observations of the northern disc of M31 to trace the hot interstel...
High resolution X-ray spectra of very young massive stars opened a new chapter in the diagnostics an...
Aims. We use new deep XMM-Newton observations of the northern disc of M31 to trace the hot interstel...
International audienceThe X-ray properties of twenty ~1 Myr old O, B, and A stars of the Orion Trape...
The X-ray spectrum of the Orion Nebula derived from observations made with the gas scintillation pro...
Although the environments of star and planet formation are thermodynamically cold, substantial X-ray...
We present a deep XMM-Newton observation of the extremely massive, rapidly rotating, relativistic-je...
Massive stars inject mechanical and radiative energy into the surrounding environment, which stirs i...
Since its discovery as an X-ray source with the EinsteinObservatory, the hot X-ray emitting interste...
Hot astrophysical plasma is ubiquitous in the Universe, from comets in our Solar syste...
The centre of the Milky Way hosts several high-energy processes that have strongly affected the inne...
This study presents first results from an X-ray mini-survey carried out with XMM-Newton to investiga...
Most of the young stars in the Orion Trapezium Cluster are much more peculiar in X-rays than expecte...
International audienceMost stars form as members of large associations within dense, very cold (10 t...
Aims. We use new deep XMM-Newton observations of the northern disc of M31 to trace the hot interstel...
Aims. We use new deep XMM-Newton observations of the northern disc of M31 to trace the hot interstel...
High resolution X-ray spectra of very young massive stars opened a new chapter in the diagnostics an...
Aims. We use new deep XMM-Newton observations of the northern disc of M31 to trace the hot interstel...
International audienceThe X-ray properties of twenty ~1 Myr old O, B, and A stars of the Orion Trape...
The X-ray spectrum of the Orion Nebula derived from observations made with the gas scintillation pro...
Although the environments of star and planet formation are thermodynamically cold, substantial X-ray...
We present a deep XMM-Newton observation of the extremely massive, rapidly rotating, relativistic-je...
Massive stars inject mechanical and radiative energy into the surrounding environment, which stirs i...
Since its discovery as an X-ray source with the EinsteinObservatory, the hot X-ray emitting interste...
Hot astrophysical plasma is ubiquitous in the Universe, from comets in our Solar syste...
The centre of the Milky Way hosts several high-energy processes that have strongly affected the inne...
This study presents first results from an X-ray mini-survey carried out with XMM-Newton to investiga...
Most of the young stars in the Orion Trapezium Cluster are much more peculiar in X-rays than expecte...