The cumulative effect of stellar encounters can substantially affect the dynamical evolution of existing planetary systems, especially during their secular evolution after the perturbation brought by the encounters. In this poster, we present the results on the cumulative effect of distant stellar encounters on multi-planet systems in star clusters, and how these results depend on the properties of the star cluster in which a planetary system is born
Most stars form in some sort of stellar cluster or association. In such environments the number dens...
Most stars form in some sort of stellar cluster or association. In such environments the number den...
"Most stars--and hence most solar systems--form within groups or clusters. This contribution discuss...
The cumulative effect of stellar encounters can substantially affect the dynamical evolution of exis...
The cumulative effect of stellar encounters can substantially affect the dynamical evolution of exis...
The majority of stars form in star clusters and many are thought to have planetary companions. We de...
Stars predominantly form in groups or clusters, which, however, only dissolve completely after hundr...
The stars that populate the solar neighbourhood were formed in stellar clusters. Through N-body simu...
The stars that populate the solar neighbourhood were formed in stellar clusters. Through N-body simu...
Stars do not form in isolation but together with other stars, often in a clustered environment. Duri...
Most stars form in star clusters and stellar associations. However, only about similar to 1 per cent...
We investigate how the formation and evolution of extrasolar planetary systems can be affected by st...
At least 10%-15% of nearby Sunlike stars have known Jupiter-mass planets. In contrast, very few plan...
As most stars tends to aggregate in dense clusters, it is interesting to study the dynamics of plane...
Stars formed in clusters can encounter other stars at close distances. In typical open clusters in t...
Most stars form in some sort of stellar cluster or association. In such environments the number dens...
Most stars form in some sort of stellar cluster or association. In such environments the number den...
"Most stars--and hence most solar systems--form within groups or clusters. This contribution discuss...
The cumulative effect of stellar encounters can substantially affect the dynamical evolution of exis...
The cumulative effect of stellar encounters can substantially affect the dynamical evolution of exis...
The majority of stars form in star clusters and many are thought to have planetary companions. We de...
Stars predominantly form in groups or clusters, which, however, only dissolve completely after hundr...
The stars that populate the solar neighbourhood were formed in stellar clusters. Through N-body simu...
The stars that populate the solar neighbourhood were formed in stellar clusters. Through N-body simu...
Stars do not form in isolation but together with other stars, often in a clustered environment. Duri...
Most stars form in star clusters and stellar associations. However, only about similar to 1 per cent...
We investigate how the formation and evolution of extrasolar planetary systems can be affected by st...
At least 10%-15% of nearby Sunlike stars have known Jupiter-mass planets. In contrast, very few plan...
As most stars tends to aggregate in dense clusters, it is interesting to study the dynamics of plane...
Stars formed in clusters can encounter other stars at close distances. In typical open clusters in t...
Most stars form in some sort of stellar cluster or association. In such environments the number dens...
Most stars form in some sort of stellar cluster or association. In such environments the number den...
"Most stars--and hence most solar systems--form within groups or clusters. This contribution discuss...