Add to ORKGPhotoevaporation driven by the ultraviolet radiation from massive stars severely limits the lifetime of protoplanetary discs around stars formed within stellar clusters. I investigate the resulting influence of clustered environments on the probability of giant planet formation, and show that for clusters as rich, or richer than, Orion, the time available for planet formation is likely to be limited to the length of any delay between low mass and high mass star formation. Under popular models for the formation of massive planets, the fraction of stars with giant planets in rich clusters is expected to be substantially suppressed as compared to the solar neighbourhood
Star formation is spatially clustered across a range of environments, from dense stellar clusters to...
According to the prevailing core instability model, giant planets begin their growth by the accumula...
Hundreds of circumstellar disks in the Orion nebula are being rapidly destroyed by the intense ultra...
It is thought that most stars, including our Sun, form within clusters alongside many other stars. P...
The lifetime of protoplanetary discs is a key parameter for planet formation theory.Observations of ...
We analyse N-body simulations of star-forming regions to investigate the effects of external far- an...
The presence and abundance of short lived radioisotopes (SLRs) $^{26}$Al and $^{60}$Fe in chondritic...
The evolution of protoplanetary discs embedded in stellar clusters depends on the age and the stella...
The lifetime of protoplanetary disks is a crucial parameter for planet formation research. Observati...
Circumstellar discs with large dust depleted cavities and vigorous accretion onto the central star a...
Most stars form and spend their early life in regions of enhanced stellar density. Therefore, the ev...
"Most stars--and hence most solar systems--form within groups or clusters. This contribution discuss...
To understand giant planet formation, we need to focus on host stars close to , where the occurre...
We examine the predictions of the core accretion - gas capture model concerning the efficiency of pl...
Protoplanetary disks dissipate rapidly after the central star forms, on time-scales comparable to th...
Star formation is spatially clustered across a range of environments, from dense stellar clusters to...
According to the prevailing core instability model, giant planets begin their growth by the accumula...
Hundreds of circumstellar disks in the Orion nebula are being rapidly destroyed by the intense ultra...
It is thought that most stars, including our Sun, form within clusters alongside many other stars. P...
The lifetime of protoplanetary discs is a key parameter for planet formation theory.Observations of ...
We analyse N-body simulations of star-forming regions to investigate the effects of external far- an...
The presence and abundance of short lived radioisotopes (SLRs) $^{26}$Al and $^{60}$Fe in chondritic...
The evolution of protoplanetary discs embedded in stellar clusters depends on the age and the stella...
The lifetime of protoplanetary disks is a crucial parameter for planet formation research. Observati...
Circumstellar discs with large dust depleted cavities and vigorous accretion onto the central star a...
Most stars form and spend their early life in regions of enhanced stellar density. Therefore, the ev...
"Most stars--and hence most solar systems--form within groups or clusters. This contribution discuss...
To understand giant planet formation, we need to focus on host stars close to , where the occurre...
We examine the predictions of the core accretion - gas capture model concerning the efficiency of pl...
Protoplanetary disks dissipate rapidly after the central star forms, on time-scales comparable to th...
Star formation is spatially clustered across a range of environments, from dense stellar clusters to...
According to the prevailing core instability model, giant planets begin their growth by the accumula...
Hundreds of circumstellar disks in the Orion nebula are being rapidly destroyed by the intense ultra...