390 research outputs found
Optical Color Gradients in Star-Forming Ring Galaxies
We compute radial color gradients produced by an outwardly propagating
circular wave of star formation and compare our results with color gradients
observed in the classical ring galaxy, the ``Cartwheel''. We invoke two
independent models of star formation in the ring galaxies. The first one is the
conventional density wave scenario, in which an intruder galaxy creates a
radially propagating density wave accompanied by an enhanced star formation
following the Schmidt law. The second scenario is a pure self-propagating star
formation model, in which the intruder only sets off the first burst of stars
at the point of impact. Both models give essentially the same results.
Systematic reddening of B-V, V-K colors towards the center, such as that
observed in the Cartwheel, can be obtained only if the abundance of heavy
elements in the star-forming gas is a few times below solar. The B-V and V-K
color gradients observed in the Cartwheel can be explained as a result of
mixing of stellar populations born in a star-forming wave propagating through a
low-metallicity gaseous disk, and a pre-existing stellar disk of the size of
the gaseous disk with color properties typical to those observed in nearby disk
galaxies.Comment: 16 pages, 12 figures; accepted for publication in the Astrophysical
Journa
The research program of the Liquid Scintillation Detector (LSD) in the Mont Blanc Laboratory
A massive (90 tons) liquid scintillation detector (LSD) has been running since October 1984 in the Mont Blanc Laboratory at a depth of 5,200 hg/sq cm of standard rock. The research program of the experiment covers a variety of topics in particle physics and astrophysics. The performance of the detector, the main fields of research are presented and the preliminary results are discussed
Digitalization in the system of anti-corruption measures
The article is devoted to the current state of digitalization aimed at solving urgent problems of combating corruption in the field of public administration and private business sector. The work considers the experience of foreign countries and the influence of digital technologies on the fight against corruption. It is noted that the digitalization of public administration is becoming one of the decisive factors for increasing the efficiency of the anti-corruption system and improving management mechanisms. Big Data, if integrated and structured according to the given parameters, allows the implementation of legislative, law enforcement, control and supervisory and law enforcement activities reliably and transparently. Big Data tools allow us to analyze processes, identify dependencies and predict corruption risks. The author describes the most significant problems that complicate the transfer of offline technologies into the online environment. The paper analyzes promising directions for the development of digital technologies that would lead to solving the arising problems, as well as to implement tasks that previously seemed unreachable. The article also describes current developments in the field of collecting and managing large amounts of data, the "Internet of Things", modern network architecture, and other advances in the field of IT; the work provides applied examples of their potential use in the field of combating corruption. The study gives reasons that, in the context of combating corruption, digitalization should be allocated in a separate area of activity that is controlled and regulated by the state
Global spiral modes in multi-component disks
We performed two-dimensional non-linear hydrodynamical simulations of
two-component gravitating disks aimed at studying stability properties of these
systems. In agreement with previous analytical and numerical simulations, we
find that the cold gas component strongly affects the growth rates of the
unstable global spiral modes in the disk. Already a five percent admixture of
cold gas increases approximately two-fold the growth rate of the most unstable
global mode while a twenty percent gas admixture enhances the modal growth rate
by a factor of four. The local stability properties of a two-component disk
coupled by self-gravity are governed by a stability criterion similar to
Toomre's Q-parameter derived for one-component systems. Using numerical
simulations, we analyse the applicability of a two-component local stability
criterion for the analysis of the stability properties of global modes. The
comparison of non-linear simulations with the analytical stability criterion
shows that the two-component disks can be globally unstable while being stable
to the local perturbations. The minimum value of the local stability criterion
provides, however, a rough estimate of the global stability properties of
two-component systems. We find that two-component systems with a content of
cold gas of ten percent or less are globally stable, if the minimum value of
the stability parameter exceeds about 2.5.Comment: 7 pages, with 8 postscript figures, accepted for publication by
Astronomy & Astrophysic
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