Title: Spatial%20Structure%20Evolution%20of%20Open%20Star%20Clusters
1Spatial Structure Evolution of Open Star Clusters
- W. P. Chen and J. W. Chen
- Graduate Institute of Astronomy National Central
University - IAU-APRM2002.7.03 Tokyo
2Open Clusters
- What we have learned/taught in AST101
irregularly and sparsely shaped. - How irregular are they anyway?
IC 348 by 2MASS
3Globular Clusters
Stars concentrate progressively toward the
center. The King model (1962) is understood as a
combination of an isothermal sphere i.e.,
dynamically relaxed in the inner part of the
cluster, and tidal truncation by the Milky Way in
the outer part.
Surface brightness of M3 (Da Costa and Freeman,
1976)
4King Model (1962)
rc core radius rt tidal radius k ? central
number density
5Structure of an Open Cluster
- The initial stellar distribution in a star
cluster is dictated perhaps by the structure in
the parental molecular cloud. (Initial) - As the cluster evolves, the distribution is
modified by gravitational interaction among
member stars. (Internal) - Eventually stellar evaporation and external
disturbances --- Galactic tidal force,
differential rotation, and collision with
molecular clouds --- would dissolve the cluster.
(External)
6Spatial Structure by Star Counting in 2MASS
- Stellar density within concentric annuli
- Center too crowded to resolve by 2MASS outer
part follows well a King model - Background uniform out to large angular extents
- Klim (3-?)15.6 --- not deep enough to reach MS,
for distant and old globular clusters
Projected radial stellar density of a GC, M55
72MASS 3-sigma limit
8Open cluster NGC 2506 (1.9 Gyr 3.3 kpc) mosaiced
from 2MASS data
9Sources toward NGC2506 and the surface density
10(No Transcript)
11Locations of sample galactic open clusters.
http//www.ipac.caltech.edu/2mass/
12(No Transcript)
13Cumulative stellar density profiles for NGC 2506
(1.9 Gyr 3.3 kpc) shows apparent evidence of
mass segregation
in contrast to that in M11 found by Mathieu
(1984)
14Stars in the young (5 Myr) star cluster IC 348
are centrally concentrated, and seem to segregate
? star formation processes more than subsequent
dynamic evolution
15The old (9 Gyr) open cluster Berkeley 17 shows no
evidence of mass segregation.
16Cluster l,b ?(Myr) N M/M? D (kpc) Rs() R (pc) ? re(Myr) t/t re Segr.
Young Young Young Young Young Young Young Young Young Young Young
NGC1893 174, -02 4 498 309 4.4 6.5 8.9 291 0.01 ?
IC348 160, -18 5 322 200 0.32 16.5 1.6 14 0.2 Y
Intermediate Intermediate Intermediate Intermediate Intermediate Intermediate Intermediate Intermediate Intermediate Intermediate Intermediate
NGC1817 186, -13 800 236 146 2.1 12.5 7.9 139 6 N?
NGC2506 231, 10 1,900 1,038 643 3.3 17.5 17.3 605 3 Y
NGC2420 198, 20 2,200 450 279 2.5 12.5 9.4 223 10 Y
Old Old Old Old Old Old Old Old Old Old Old
NGC6791 070, 11 8,000 1,095 679 4.2 10.5 13.2 543 15 ?
Be17 176, -04 9,000 370 229 2.5 9.5 7.1 142 63 N
17Relaxation Time
- tcross R/V trelax tcross.Ncross
- Ncross 0.1 N / ln N
- tevap 100 trelax
- R radius V velocity dispersion
- N number of member stars
18NGC 1893 --- 4 Myr
19IC 348 --- 5 Myr
20NGC1817 --- 800 Myr
21NGC 6791 --- 8,000 Myr
22Be 17 --- 9,000 Myr
23Summary
- 2MASS good for study of open clusters - Full
data release expected end of 2002 - Deep IR
images to differentiate the MS (IR
camera with Nagoya U PMO) - Stars in an open cluster, regardless of masses,
are concentrated progressively toward the center.
- The youngest star clusters show evidence of
luminosity (mass) segregation - cf. molecular
cloud structure (SMA)
24Summary --- II
- By a few Gyr (several relaxation times), clusters
become highly relaxed, until dynamical
disruptions dominate. - Tidal distortions (age, location, massive vs
low-mass stars)? Open clusters (scattering
around the galactic disk) as probes of galactic
mass distribution e.g., disk vs volume
potential - galactic disk and (dark) halo models
25Our knowledge, or even recognition, of galactic
open clusters is highly incomplete, most biased
toward the ones that are nearby and with bright
stars.
26Open clusters are distributed widely around the
galactic disk.
27Open Cluster Study at NCU
- Luminosity Function Evolution? age and star
formation history (e.g., coeval vs periodic
bursts) done - Structural Evolution ? dynamics? probing
galactic mass distribution (e.g., disk vs volume
potential) ½ done - Variability and rotation vs magnetic activity
doing
28Open Clusters/NCU --- cont.
- Lulin 1 m telescope (Taiwan) August 2002
- Maidanak Observatory (Uzbekistan) 1.5 m and 1 m
- Moletai Obs. 1.65 m (Lithuania)
- YALO 1 m (Chile)
- Imaging plus CORAVEL high-resolution spectroscopy
- Kentucky-Yunnan-Taiwan Telescope (KYTT) to lift
off by 2004-2005?
29Fast rotating stars P(rot) lt 12 d (BLUE) are
distinguished from slow rotators (RED) by their
X-ray luminosity (normalized to solar in
yellow. The Rossby number gives the rotation
period in units of the eddy's lifetime.
(http//www.aip.de/groups/turbulence/star_t.html)