Add to ORKGCold, dense clouds of gas have been proposed as baryonic candidates for the dark matter in Galactic haloes, and have also been invoked in the Galactic disc as an explanation for the excess faint sub-mm sources detected by SCUBA. Even if their dust-to-gas ratio is only a small percentage of that in conventional gas clouds, these dense systems would be opaque to visible radiation. This presents the possibility of detecting them by looking for occultations of background stars. We examine the possibility that the data sets of microlensing experiments searching for massive compact halo objects can also be used to search for occultation signatures by cold clouds. We compute the rate and timescale distribution of stellar transits by clouds in the ...
MAssive Compact Halo Objects such as brown dwarfs, Jupiters, and black holes are prime candidates to...
By means of extensive galactic modeling we study the implications of the more than 100 microlensing ...
Stars twinkle because their light goes through the atmosphere. The same phenomenon is expected when ...
Cold, dense clouds of gas have been proposed as baryonic candidates for the dark matter in Galactic ...
One of the most important problems in astrophysics concerns the nature of the dark matter in galacti...
The recent detections of a large population of faint submillimetre sources, an excess halo gamma-ray...
By means of extensive galactic modeling we study the implications of the more than eighty microlensi...
The observations of microlensing events in the Large Magellanic Cloud suggest that a sizable fractio...
The evolution of the observational results of microlensing towards the LMC and some of the suggested...
Microlensing has established itself as a powerful new method for the detection of baryonic dark matt...
Modelling of Extreme Scattering Events suggests that the Galaxy's dark matter is an undetected popul...
The nature of the dark matter in the halo of our Galaxy is still largely unknown. The microlensing e...
Recent observations of microlensing events in the Large Magellanic Cloud suggest that a sizeable fra...
Using the VLA, we have performed the first observational test of dark matter in the form of cold, pr...
Abstract: We discuss whether the astrophysical objects responsible for the recently reported microle...
MAssive Compact Halo Objects such as brown dwarfs, Jupiters, and black holes are prime candidates to...
By means of extensive galactic modeling we study the implications of the more than 100 microlensing ...
Stars twinkle because their light goes through the atmosphere. The same phenomenon is expected when ...
Cold, dense clouds of gas have been proposed as baryonic candidates for the dark matter in Galactic ...
One of the most important problems in astrophysics concerns the nature of the dark matter in galacti...
The recent detections of a large population of faint submillimetre sources, an excess halo gamma-ray...
By means of extensive galactic modeling we study the implications of the more than eighty microlensi...
The observations of microlensing events in the Large Magellanic Cloud suggest that a sizable fractio...
The evolution of the observational results of microlensing towards the LMC and some of the suggested...
Microlensing has established itself as a powerful new method for the detection of baryonic dark matt...
Modelling of Extreme Scattering Events suggests that the Galaxy's dark matter is an undetected popul...
The nature of the dark matter in the halo of our Galaxy is still largely unknown. The microlensing e...
Recent observations of microlensing events in the Large Magellanic Cloud suggest that a sizeable fra...
Using the VLA, we have performed the first observational test of dark matter in the form of cold, pr...
Abstract: We discuss whether the astrophysical objects responsible for the recently reported microle...
MAssive Compact Halo Objects such as brown dwarfs, Jupiters, and black holes are prime candidates to...
By means of extensive galactic modeling we study the implications of the more than 100 microlensing ...
Stars twinkle because their light goes through the atmosphere. The same phenomenon is expected when ...