113 research outputs found
The Gaia-ESO Survey: N-body modelling of the Gamma Velorum cluster
The Gaia-ESO Survey has recently unveiled the complex kinematic signature of
the Gamma Velorum cluster: this cluster is composed of two kinematically
distinct populations (hereafter, population A and B), showing two different
velocity dispersions and a relative ~2 km s^-1 radial velocity (RV) shift. In
this paper, we propose that the two populations of the Gamma Velorum cluster
originate from two different sub-clusters, born from the same parent molecular
cloud. We investigate this possibility by means of direct-summation N-body
simulations. Our scenario is able to reproduce not only the RV shift and the
different velocity dispersions, but also the different centroid (~0.5 pc), the
different spatial concentration and the different line-of-sight distance (~5
pc) of the two populations. The observed 1-2 Myr age difference between the two
populations is also naturally explained by our scenario, in which the two
sub-clusters formed in two slightly different star formation episodes. Our
simulations suggest that population B is strongly supervirial, while population
A is close to virial equilibrium. We discuss the implications of our models for
the formation of young star clusters and OB associations in the Milky Way.Comment: 12 pages, 7 figures, 2 tables, Astronomy and Astrophysics, in pres
Lateral resolution in focused electron beam-induced deposition: scaling laws for pulsed and static exposure
The Physics of Star Cluster Formation and Evolution
© 2020 Springer-Verlag. The final publication is available at Springer via https://doi.org/10.1007/s11214-020-00689-4.Star clusters form in dense, hierarchically collapsing gas clouds. Bulk kinetic energy is transformed to turbulence with stars forming from cores fed by filaments. In the most compact regions, stellar feedback is least effective in removing the gas and stars may form very efficiently. These are also the regions where, in high-mass clusters, ejecta from some kind of high-mass stars are effectively captured during the formation phase of some of the low mass stars and effectively channeled into the latter to form multiple populations. Star formation epochs in star clusters are generally set by gas flows that determine the abundance of gas in the cluster. We argue that there is likely only one star formation epoch after which clusters remain essentially clear of gas by cluster winds. Collisional dynamics is important in this phase leading to core collapse, expansion and eventual dispersion of every cluster. We review recent developments in the field with a focus on theoretical work.Peer reviewe
A MODEST review
We present an account of the state of the art in the fields explored by the
research community invested in 'Modeling and Observing DEnse STellar systems'.
For this purpose, we take as a basis the activities of the MODEST-17
conference, which was held at Charles University, Prague, in September 2017.
Reviewed topics include recent advances in fundamental stellar dynamics,
numerical methods for the solution of the gravitational N-body problem,
formation and evolution of young and old star clusters and galactic nuclei,
their elusive stellar populations, planetary systems, and exotic compact
objects, with timely attention to black holes of different classes of mass and
their role as sources of gravitational waves.
Such a breadth of topics reflects the growing role played by collisional
stellar dynamics in numerous areas of modern astrophysics. Indeed, in the next
decade, many revolutionary instruments will enable the derivation of positions
and velocities of individual stars in the Milky Way and its satellites and will
detect signals from a range of astrophysical sources in different portions of
the electromagnetic and gravitational spectrum, with an unprecedented
sensitivity. On the one hand, this wealth of data will allow us to address a
number of long-standing open questions in star cluster studies; on the other
hand, many unexpected properties of these systems will come to light,
stimulating further progress of our understanding of their formation and
evolution.Comment: 42 pages; accepted for publication in 'Computational Astrophysics and
Cosmology'. We are much grateful to the organisers of the MODEST-17
conference (Charles University, Prague, September 2017). We acknowledge the
input provided by all MODEST-17 participants, and, more generally, by the
members of the MODEST communit
Preparation and Reactivity of Surface Modified ZrO2/SiO2 Mixed Oxides in the Oxidation of Olefins with Hydrogen Peroxide
Epoxidation of Allylic Alcohols with Hydrogen Peroxide catalyzed by Mesoporous Zirconia-Silica Mixed Oxides
Nitrate removal in drinking waters: the effect of tin oxides in the catalytic hydrogenation of nitrate by Pd/SnO2 catalysts
Diphosphine-Palladium and -Platinum complexes as catalysts for the Baeyer-Villiger oxidation of ketones: effect of the diphosphine, oxidation of acyclic ketones, and mechanistic studies
- …