45 research outputs found
Direct determination of the spiral pattern rotation speed of the Galaxy
The rotation velocity of the spiral pattern of the Galaxy is determined by
direct observation of the birthplaces of open clusters of stars in the galactic
disk as a function of their age. Our measurement does not depend on any
specific model of the spiral structure, like the existence of a given number of
spiral arms, or the presence of a bar in the central regions. This study became
possible due to the recent completion of a large database on open clusters by
our group. The birthplaces of the clusters are determined by two methods, one
that assumes that the orbits are circular, and the other by integrating the
orbits in the Galactic potential for a time equal to the age of the clusters.
We selected in the database a sample of 212 clusters for which proper motions,
radial velocities, distances and ages are available, or of 612 clusters that
have ages and distances available. We tested different assumptions concerning
the rotation curve and the radius of the solar orbit. Our results confirm
that a dominant fraction of the open clusters are formed in spiral arms, and
that the spiral arms rotate like a rigid body, as predicted by the classical
theory of spiral waves. We find that the corotation radius is close to
the solar galactic orbit (). This proximity has many
potentially interesting consequences, like a better preservation of life on the
Earth, and a new understanding of the history of star formation in the solar
neighborhood, and of the evolution of the abundance of elements in the galactic
disk.Comment: 9 pages, 5 figures, submitted to Ap
Corotation: its influence on the chemical abundance pattern of the Galaxy
A simple theory for the chemical enrichment of the Galaxy which takes into
account the effects of spiral arms on heavy elements output was developed. In
the framework of the model with the corotation close to the position of the Sun
in the Galaxy the observed abundance features are explained.Comment: LaTeX, 6 pages, 5 jpg figures, uses aastex.sty, submitted to ApJ Let
Global Spiral Modes in NGC 1566: Observations and Theory
We present an observational and theoretical study of the spiral structure in
galaxy NGC 1566. A digitized image of NGC 1566 in I-band was used for
measurements of the radial dependence of amplitude variations in the spiral
arms. We use the known velocity dispersion in the disk of NGC 1566, together
with its rotation curve, to construct linear and 2D nonlinear simulations which
are then compared with observations. A two-armed spiral is the most unstable
linear global mode in the disk of NGC 1566. The nonlinear simulations are in
agreement with the results of the linear modal analysis, and the theoretical
surface amplitude and the velocity residual variations across the spiral arms
are in qualitative agreement with the observations. The spiral arms found in
the linear and nonlinear simulations are considerably shorter than those
observed in the disk of NGC 1566. We argue therefore, that the surface density
distribution in the disk of the galaxy NGC 1566 was different in the past, when
spiral structure in NGC 1566 was linearly growing.Comment: 41 pages, 20 figures, to be published in the Astrophysical Journa
A New Model for the Spiral Structure of the Galaxy. Superposition of 2+4-armed patterns
We investigate the possibility of describing the spiral pattern of the Milky
Way in terms of a model of superposition 2- and 4-armed wave harmonics (the
simplest description, besides pure modes). Two complementary methods are used:
a study of stellar kinematics, and direct tracing of positions of spiral arms.
In the first method, the parameters of the galactic rotation curve and the free
parameters of the spiral density waves were obtained from Cepheid kinematics,
under different assumptions. To turn visible the structure corresponding to
these models, we computed the evolution of an ensemble of N-particles,
simulating the ISM clouds, in the perturbed galactic gravitational field. In
the second method, we present a new analysis of the longitude-velocity (l-v)
diagram of the sample of galactic HII regions, converting positions of spiral
arms in the galactic plane into locii of these arms in the l-v diagram. Both
methods indicate that the ``self-sustained'' model, in which the 2-armed and
4-armed mode have different pitch angles (6 arcdeg and 12 arcdeg, respectively)
is a good description of the disk structure. An important conclusion is that
the Sun happens to be practically at the corotation circle. As an additional
result of our study, we propose an independent test for localization of the
corotation circle in a spiral galaxy: a gap in the radial distribution of
interstellar gas has to be observed in the corotation region.Comment: 17 pages, 9 figures, Latex, uses aas2pp4.st
Observation of light echoes around very young stars
The goal of the paper is to present new results on light echoes from young
stellar objects. Broad band CCD images were obtained over three months at
one-to-two week intervals for the field of NGC 6726, using the large
field-of-view remotely-operated telescope on top of Cerro Burek. We detected
scattered light echoes around two young, low-amplitude, irregular variable
stars. Observations revealed not just one, but multiple light echoes from
brightness pulses of the T Tauri star S CrA and the Herbig Ae/Be star R CrA.
Analysis of S CrA's recurring echoes suggests that the star is located 138 +/-
16 pc from Earth, making these the closest echoes ever detected. The
environment that scatters the stellar light from S CrA is compatible with an
incomplete dust shell or an inclined torus some 10,000 AU in radius and
containing M_{\sun} of dust. The cause of such
concentration at 10,000AU from the star is unknown. It could be the
remnant of the envelope from which the star formed, but the distance of the
cloud is remarkably similar to the nominal distance of the Oort cloud to the
Sun, leading us to also speculate that the dust (or ice) seen around S CrA
might have the same origin as the Solar System Oort cloud.Comment: A&A, in press Received: 16 March 2010 / Accepted: 01 June 201
Dark energy from instantons
We show that in imaginary time quantum metric fluctuations of empty space
form a self-consistent de Sitter gravitational instanton that can be thought of
as describing tunneling from "nothing" into de Sitter space of real time (no
cosmological constant or scalar fields are needed). For the first time, this
mechanism is activated to give birth to a flat inflationary Universe. For the
second time, it is turned on to complete the cosmological evolution after the
energy density of matter drops below the threshold (the energy density of
instantons). A cosmological expansion with dark energy takes over after the
scale factor exceeds this threshold, which marks the birth of dark energy at a
redshift and provides a possible solution to the "coincidence
problem". The number of gravitons which tunneled into the Universe must be of
the order of to create the observed value of the Hubble constant.
This number has nothing to do with vacuum energy, which is a possible solution
to the "old cosmological constant problem". The emptying Universe should
possibly complete its evolution by tunneling back to "nothing". After that, the
entire scenario is repeated, and it can happen endlessly.Comment: 11 two-column pages, 1 figure, V2 is updated pre-publication version.
The title is changed. Section 4 (Birth of Dark Energy) is extended. Misprints
are fixe
Anisotropy of dark matter annihilation with respect to the Galactic plane
We describe the anisotropy of dark matter clump distribution caused by tidal
destruction of clumps in the Galactic disk. A tidal destruction of clumps with
orbit planes near the disk plane occurs more efficiently as compared with
destruction of clumps at near-polar orbits. A corresponding annihilation of
dark matter particles in small-scale clumps produces the anisotropic gamma-ray
signal with respect to the Galactic disk. This anisotropy is rather small, 9%,
and superimposed on that due to off-centering position of the Sun in the
Galaxy. The anisotropy of annihilation signal with respect to the Galactic disk
provides a possibility to discriminate dark matter annihilation from the
diffuse gamma-ray backgrounds of other origin.Comment: Accepted for publication in JCAP (minor changes
Galactic Rotation Parameters from Data on Open Star Clusters
Currently available data on the field of velocities Vr, Vl, Vb for open star
clusters are used to perform a kinematic analysis of various samples that
differ by heliocentric distance, age, and membership in individual structures
(the Orion, Carina--Sagittarius, and Perseus arms). Based on 375 clusters
located within 5 kpc of the Sun with ages up to 1 Gyr, we have determined the
Galactic rotation parameters
Wo =-26.0+-0.3 km/s/kpc,
W'o = 4.18+-0.17 km/s/kpc^2,
W''o=-0.45+-0.06 km/s/kpc^3, the system contraction parameter K = -2.4+-0.1
km/s/kpc, and the parameters of the kinematic center Ro =7.4+-0.3 kpc and lo =
0+-1 degrees. The Galactocentric distance Ro in the model used has been found
to depend significantly on the sample age. Thus, for example, it is 9.5+-0.7
kpc and 5.6+-0.3 kpc for the samples of young (50 Myr)
clusters, respectively. Our study of the kinematics of young open star clusters
in various spiral arms has shown that the kinematic parameters are similar to
the parameters obtained from the entire sample for the Carina-Sagittarius and
Perseus arms and differ significantly from them for the Orion arm. The
contraction effect is shown to be typical of star clusters with various ages.
It is most pronounced for clusters with a mean age of 100 Myr, with the
contraction velocity being Kr = -4.3+-1.0 km/s.Comment: 14 pages, 4 figures, 2 table
Habitable Zones in the Universe
Habitability varies dramatically with location and time in the universe. This
was recognized centuries ago, but it was only in the last few decades that
astronomers began to systematize the study of habitability. The introduction of
the concept of the habitable zone was key to progress in this area. The
habitable zone concept was first applied to the space around a star, now called
the Circumstellar Habitable Zone. Recently, other, vastly broader, habitable
zones have been proposed. We review the historical development of the concept
of habitable zones and the present state of the research. We also suggest ways
to make progress on each of the habitable zones and to unify them into a single
concept encompassing the entire universe.Comment: 71 pages, 3 figures, 1 table; to be published in Origins of Life and
Evolution of Biospheres; table slightly revise