about
The devil is in the tails: the role of globular cluster mass evolution on stream propertiesEarly disc accretion as the origin of abundance anomalies in globular clustersGlobular cluster scale sizes in giant galaxies: orbital anisotropy and tidally underfilling clusters in M87, NGC 1399 and NGC 5128New insights into the origin and evolution of the old, metal-rich open cluster NGC 6791A stellar-mass black hole population in the globular cluster NGC 6101?Evolution of star clusters on eccentric orbitsIf it does not kill them, it makes them stronger: collisional evolution of star clusters with tidal shocksTesting lowered isothermal models with directN-body simulations of globular clustersBiases in the inferred mass-to-light ratio of globular clusters: no need for variations in the stellar mass functionMultiple populations in globular clusters: the distinct kinematic imprints of different formation scenariosThe initial conditions of observed star clusters – I. Method description and validationA prescription and fast code for the long-term evolution of star clusters – III. Unequal masses and stellar evolutionThe inefficiency of satellite accretion in forming extended star clustersA prescription and fast code for the long-term evolution of star clusters – II. Unbalanced and core evolutionOuter density profiles of 19 Galactic globular clusters from deep and wide-field imagingThe VLT-FLAMES Tarantula SurveyEvolution of star clusters in arbitrary tidal fieldsTesting lowered isothermal models with direct N-body simulations of globular clusters – II. Multimass modelsMultiple populations in globular clusters: constraints from kinematics and dynamics
P2860
Q58488957-C1A43BA4-BC9B-4399-934C-D42E76C45986Q59093484-CDF5F698-A59B-4516-B8EB-503D065328D7Q59110777-52B7532E-83C0-49DA-8658-C00323864927Q59111135-299457FE-BCC3-4475-98D2-BE6EE2909EFAQ59111145-97AFD9B5-9D9B-460E-9D6B-44BBF3963AF6Q59111148-BFB28950-DD1B-4288-BDFD-1D0B6796EE97Q59111151-9631F0D5-1A2E-4F24-87F6-D88B3967A1ACQ59111163-7F2F4259-35C5-4009-A77B-CED99C2C6569Q59111168-CFEA487D-6B9F-4311-B621-105BCA9BAC69Q59111171-0ED34D5A-FDC0-47A0-B912-EE665EE72230Q59111174-3815101C-07F7-46B3-94EF-15ED3C97BD59Q59111176-42BFE859-F8AB-433F-867F-9276513F8D7FQ59111180-F14559D1-01E9-4FD6-AC5E-723C648D925CQ59111183-3551C533-BE2C-48CE-97C9-F42D0BFD7844Q59111211-FEC85EC1-4164-4872-83D1-84283F4BB01CQ59111223-B059885C-81EF-4A01-90B5-3C12F90DEB2CQ59111233-5325735C-84F6-4026-8D09-054A5AD79B65Q59111677-9BB50443-A594-4647-8BBC-D480B23FDC16Q59111687-51551AA4-2ED6-460B-BAA3-E58460F3446B
P2860
description
im März 2011 veröffentlichter wissenschaftlicher Artikel
@de
wetenschappelijk artikel
@nl
наукова стаття, опублікована в березні 2011
@uk
name
The life cycle of star clusters in a tidal field
@en
The life cycle of star clusters in a tidal field
@nl
type
label
The life cycle of star clusters in a tidal field
@en
The life cycle of star clusters in a tidal field
@nl
prefLabel
The life cycle of star clusters in a tidal field
@en
The life cycle of star clusters in a tidal field
@nl
P2860
P50
P1476
The life cycle of star clusters in a tidal field
@en
P2860
P304
P356
10.1111/J.1365-2966.2011.18320.X
P407
P577
2011-03-29T00:00:00Z
P818
P819
2011MNRAS.413.2509G