Your search keyword '"Galaxy: Evolution"' showing total 13 results

1. O and Fe abundance correlations and distributions inferred for the thick and thin disk

Author

Caimmi R.

Subjects

galaxy: evolution, galaxy: formation, stars: evolution, stars: formation, Astronomy, QB1-991

Abstract

A linear [Fe/H]-[O/H] relation is found for different stellar populations in the Galaxy (halo, thick disk, thin disk) from a data sample obtained in a recent investigation (Ramґırez et al. 2013). These correlations support previous results inferred from poorer samples: stars display a “main sequence” expressed as [Fe/H] = a[O/H] + b -+ Δb where the unit slope, a = 1, implies a constant [O/Fe] abundance ratio. Oxygen and iron empirical abundance distributions are then determined for different subsamples, which are well explained by the theoretical predictions of multistage closed-(box+reservoir) (MCBR) chemical evolution models taking into account the found correlations. The interpretation of these distributions in the framework of MCBR models gives us clues about inflow/outflow rates in these different Galactic regions and their corresponding evolution. Outflow rates for the thick and the thin disks are lower than the halo outflow rate. Besides that, the iron-to-oxygen yield ratio and the primary to not primary contribution ratio for the iron production are obtained from the data, resulting consistent with the SNII progenitor nucleosynthesis and with the iron production from SNIa supernova events.

Published

2015

2. Globular cluster star classification: Application to M13

Author

Caimmi R.

Subjects

Galaxy: evolution, Galaxy: formation, Galaxy: halo, globular clusters: general, globular clusters: individual (M13), Astronomy, QB1-991

Abstract

Starting from recent determination of Fe, O, Na abundances on a restricted sample (N = 67) of halo and thick disk stars, a natural and well motivated selection criterion is defined for the classification globular cluster stars. An application is performed to M13 using a sample (N = 113) for which Fe, O, Na abundances have been recently inferred from observations. A comparison is made between the current and earlier M13 star classifications. Both O and Na empirical differential abundance distributions are determined for each class and for the whole sample (with the addition of Fe in the last case) and compared with their theoretical counterparts due to cosmic scatter obeying a Gaussian distribution whose parameters are inferred from related subsamples. The occurrence of an agreement between the empirical and theoretical distributions is interpreted as absence of significant chemical evolution and vice versa. The procedure is repeated with regard to four additional classes depending on whether oxygen and sodium abundance is above (stage CE) or below (stage AF) a selected threshold. Both O and Na empirical differential abundance distributions, related to the whole sample, exhibit a linear fit for the AF and CE stage. Within the errors, the oxygen slope for the CE stage is equal and of opposite sign with respect to the sodium slope for AF stage, while the contrary holds when dealing with the oxygen slope for the AF stage with respect to the sodium slope for the CE stage. In the light of simple models of chemical evolution applied to M13, oxygen depletion appears to be mainly turned into sodium enrichment for [O/H]≥ -1.35 and [Na/H]≤ -1.45, while one or more largely preferred channels occur for [O/H]< -1.35 and [Na/H]> -1.45. In addition, the primordial to the current M13 mass ratio can be inferred from the true sodium yield in units of the sodium solar abundance. Though the above results are mainly qualitative due to large (-+1.5 dex) uncertainties in abundance determination, still the exhibited trend is expected to be real. The proposed classification of globular cluster stars may be extended in a twofold manner, namely to: (i) elements other than Na and Fe and (ii) globular clusters other than M13.

Published

2013

3. Fractional yields inferred from halo and thick disk stars (Serb. Astron. J. - 187 (2013), 19)

Author

Caimmi R.

Subjects

galaxy: evolution, galaxy: formation, stars: evolution, stars: formation, Astronomy, QB1-991

Abstract

Due to a wrong sign in a computer code, theoretical yield ratios have been recalculated. Related changes affect only Figs. 12-13, where theoretical yield ratios are represented as vertical bands. The correct figures are provided and differences with respect to the earlier version are mentioned. Minor corrections are also shown.

Published

2014

4. Fermi's Paradox - The Last Challenge For Copernicanism?

Author

Ćirković, M. M.

Subjects

Astrobiology, extraterrestrial intelligence, Galaxy: evolution, history and philosophy of astronomy, Astronomy, QB1-991

Abstract

We review Fermi's paradox (or the "Great Silence" problem), not only arguably the oldest and crucial problem for the Search for ExtraTerrestrial Intelligence (SETI), but also a conundrum of profound scientific, philosophical and cultural importance. By a simple analysis of observation selection effects, the correct resolution of Fermi's paradox is certain to tell us something about the future of humanity. Already more than three quarters of century old puzzle -- and a quarter of century since the last major review paper in the field by G. David Brin -- has generated many ingenious discussions and hypotheses. We analyze the often tacit methodological assumptions built in various answers to this puzzle and attempt a new classification of the numerous solutions proposed in an already huge literatureon the subject. Finally, we consider the ramifications of variousclasses of hypotheses for the practical SETI projects. Somewhatparadoxically, it seems that the class of (neo)catastrophichypotheses gives, on the balance, the strongest justification tooptimism regarding our current and near-future SETI efforts.

Published

2009

5. Neocatastrophism and the Milky Way Astrobiological Landscape

Author

Vukotić, B. and Ćirković, M. M.

Subjects

Astrobiology, methods: numerical, Galaxy: evolution, extraterrestrial intelligence, Astronomy, QB1-991

Abstract

The number and distribution of habitable planets in the Milky Way is one of the foremost problems of contemporary astrobiological research. We investigate the effects of applying general neocatastrophic paradigm to the evolution of the Galactic Habitable Zone. In this paper, we investigate the limits of simple, 1-dimensional astrobiological models, and consider the role of regulation mechanisms in shapening the "astrobiological landscape". We show that the transition from predominantly gradualist to predominantly (neo)catastrophist history of our Galaxy leads to the build-up of large-scale correlations between habitable sites, offering possible keys to such important problems as Carter's "anthropic" argument and Fermi's paradox. In addition, we consider the possibilities for extending the present class of models into spatially realistic 3-dimensional case via probabilistic cellular automata.

Published

2008

6. On the timescale forcing in astrobiology

Author

Vukotić B. and Ćirković M.M.

Subjects

astrobiology, methods: numerical, galaxy: evolution, extraterrestrial intelligence, Astronomy, QB1-991

Abstract

We investigate the effects of correlated global regulation mechanisms, especially Galactic gamma-ray bursts (GRBs), on the temporal distribution of hypothetical inhabited planets, using simple Monte Carlo numerical experiments. Starting with recently obtained models of planetary ages in the Galactic Habitable Zone (GHZ), we obtain that the times required for biological evolution on habitable planets of the Milky Way are highly correlated. These results run contrary to the famous anti-SETI anthropic argument of Carter, and give tentative support to the ongoing and future SETI observation projects.

Published

2007

7. Brown dwarf accretion: Nonconventional star formation over very long timescales

Author

Ćirković Milan M.

Subjects

Stars: low-mass, brown dwarfs, galaxy: evolution, ISM: general, Astronomy, QB1-991

Abstract

We investigate the process of accretion of interstellar gas by the Galactic population of brown dwarfs over very long timescales typical for physical eschatology. In particular, we use the classical Hoyle-Lyttleton-Bondi accretion model to investigate the rate at which brown dwarfs collect enough additional mass to become red dwarfs, accretion-induced changes in the mass function of the low- mass objects, and the corresponding accretion heating of brown dwarfs. In addition, we show how we can make the definition of the final mass function for stellar objects more precise.

Published

2005

8. Globular cluster star classification: Application to M13

Author

Roberto Caimmi

Subjects

lcsh:Astronomy, Sodium, globular clusters: individual (M13), Analytical chemistry, FOS: Physical sciences, chemistry.chemical_element, Stellar classification, globular clusters: general, lcsh:QB1-991, Galactic halo, Abundance (ecology), Thick disk, Astrophysics::Solar and Stellar Astrophysics, Astrophysics::Galaxy Astrophysics, Galaxy: evolution, Physics, Astronomy and Astrophysics, Mass ratio, Astrophysics - Astrophysics of Galaxies, Galaxy: halo, Galaxy: formation, Stars, chemistry, Astrophysics of Galaxies (astro-ph.GA), Globular cluster

Abstract

Starting from recent determination of Fe, O, Na abundance on a restricted sample (N=67) of halo and thick disk stars, a natural and well motivated selection criterion is defined for the classification of globular cluster stars. An application is performed to M13 using a sample (N=112) for which Fe, O, Na abundance has been recently inferred from observations. A comparison is made between current and earlier M13 star classification. Both O and Na empirical differential abundance distributions are determined for each class and the whole sample (with the addition of Fe in the last case) and compared with their theoretical counterparts due to cosmic scatter obeying a Gaussian distribution whose parameters are inferred from related subsamples. The procedure is repeated with regard to four additional classes according if oxygen and sodium abundance is above (stage CE) or below (stage AF) a selected threshold. Both O and Na empirical differential abundance distributions, related to the whole sample, exhibit a linear fit for AF and CE stage. Within the errors, the oxygen slope for CE stage is equal and opposite in sign with respect of the sodium slope for AF stage, while the contrary holds in dealing with the oxygen slope for AF stage with respect to the sodium slope for CE stage. In the light of simple models of chemical evolution applied to M13, the O-Na anticorrelation and the primordial to current M13 mass ratio are discussed. The proposed classification of globular cluster stars may be extended in a twofold manner, namely to (i) elements other than Na and Fe and (ii) globular clusters other than M13., 36 pages, 13 tables (table 13 continued up to 16) and 9 figures. Accepted for publication on Serbian Astronomical Journal

Published

2013

9. Fractional yields inferred from halo and thick disk stars (Serb. Astron. J. - 187 (2013), 19)

Author

Roberto Caimmi

Subjects

Physics, stars: formation, galaxy: evolution, lcsh:Astronomy, Astronomy, Astronomy and Astrophysics, Astrophysics, galaxy: formation, lcsh:QB1-991, Astron, Stars, Thin disk, Galaxy formation and evolution, Thick disk, stars: evolution, Halo

Abstract

Due to a wrong sign in a computer code, theoretical yield ratios have been recalculated. Related changes affect only Figs. 12-13, where theoretical yield ratios are represented as vertical bands. The correct figures are provided and differences with respect to the earlier version are mentioned. Minor corrections are also shown.

Published

2014

10. Fermi's paradox: The last challenge for copernicanism?

Author

Milan M. Ćirković

Subjects

Galaxy: evolution, Earth and Planetary Astrophysics (astro-ph.EP), Balance (metaphysics), Class (set theory), History, lcsh:Astronomy, Subject (philosophy), astrobiology, FOS: Physical sciences, Astronomy and Astrophysics, Resolution (logic), extraterrestrial intelligence, Epistemology, Silence, lcsh:QB1-991, Galaxy, evolution, Humanity, history and philosophy of astronomy, Search for extraterrestrial intelligence, Astrophysics - Earth and Planetary Astrophysics, Simple (philosophy)

Abstract

We review Fermi's paradox (or the "Great Silence" problem), not only arguably the oldest and crucial problem for the Search for ExtraTerrestrial Intelligence (SETI), but also a conundrum of profound scientific, philosophical and cultural importance. By a simple analysis of observation selection effects, the correct resolution of Fermi's paradox is certain to tell us something about the future of humanity. Already a more than three quarters of a century old puzzle - and a quarter of century since the last major review paper in the field by G. David Brin - Fermi's paradox has generated many ingenious discussions and hypotheses. We analyze the often tacit methodological assumptions built into various answers to this puzzle and attempt a new classification of the numerous solutions proposed in an already huge literature on the subject. Finally, we consider the ramifications of various classes of hypotheses for the practical SETI projects. Somewhat paradoxically, it seems that the class of (neo)catastrophic hypotheses gives, on balance, the strongest justification for guarded optimism regarding our current and near-future SETI efforts., Comment: 39 pages, 3 figures, slightly expanded in comparison to the journal version

Published

2009

11. Neocatastrophism and the milky way astrobiological landscape

Author

Milan M. Ćirković and Branislav Vukotić

Subjects

Physics, Galaxy: evolution, trial intelligence, Planetary habitability, lcsh:Astronomy, Milky Way, Extraterrestrial intelligence, astrobiology, Astronomy, Neocatastrophism, Astronomy and Astrophysics, extraterrestrial intelligence, Galaxy, Astrobiology, methods: numerical, lcsh:QB1-991, Galactic habitable zone, Astrophysics::Earth and Planetary Astrophysics, Anthropic principle, Simple (philosophy), extraterres

Abstract

The number and distribution of habitable planets in the Milky Way is one of the foremost problems of contemporary astrobiological research. We investigate the effects of applying general neocatastrophic paradigm to the evolution of the Galactic Habitable Zone. In this paper, we investigate the limits of simple, 1-dimensional astrobiological models, and consider the role of regulation mechanisms in shapening the 'astrobiological landscape'. We show that the transition from predominantly gradualist to predominantly (neo)catastrophist history of our Galaxy leads to the build-up of large-scale correlations between habitable sites, offering possible keys to such important problems as Carter's 'anthropic' argument and Fermi's paradox. In addition, we consider the possibilities for extending the present class of models into spatially realistic 3-dimensional case via probabilistic cellular automata.

Published

2008

12. On the timescale forcing in astrobiology

Author

Milan M. Ćirković and Branislav Vukotić

Subjects

Physics, Planetary habitability, galaxy: evolution, lcsh:Astronomy, Astrophysics::High Energy Astrophysical Phenomena, Milky Way, Astrophysics (astro-ph), Monte Carlo method, astrobiology, FOS: Physical sciences, Astronomy and Astrophysics, Astrophysics::Cosmology and Extragalactic Astrophysics, Forcing (mathematics), Astrophysics, extraterrestrial intelligence, methods: numerical, Astrobiology, lcsh:QB1-991, Planet, Galactic habitable zone, Astrophysics::Earth and Planetary Astrophysics, Astrophysics::Galaxy Astrophysics, Search for extraterrestrial intelligence, Anthropic principle

Abstract

We investigate the effects of correlated global regulation mechanisms, especially Galactic gamma-ray bursts (GRBs), on the temporal distribution of hypothetical inhabited planets, using simple Monte Carlo numerical experiments. Starting with recently obtained models of planetary ages in the Galactic Habitable Zone (GHZ), we obtain that the times required for biological evolution on habitable planets of the Milky Way are highly correlated. These results run contrary to the famous anti-SETI anthropic argument of Carter, and give tentative support to the ongoing and future SETI observation projects., Comment: 6 pages, 4 figures, preliminary report, published in Serbian Astronomical Journal, vol. 175, 45-50

Published

2007

13. Brown dwarf accretion: Nonconventional star formation over very long timescales

Author

Milan M. Ćirković

Subjects

Physics, galaxy: evolution, lcsh:Astronomy, Star formation, Astrophysics::High Energy Astrophysical Phenomena, Young stellar object, Brown dwarf, Astronomy, Astronomy and Astrophysics, Astrophysics::Cosmology and Extragalactic Astrophysics, Astrophysics, Stellar classification, Accretion (astrophysics), lcsh:QB1-991, Astrophysics::Solar and Stellar Astrophysics, Stars: low-mass, Astrophysics::Earth and Planetary Astrophysics, Massive compact halo object, Blue dwarf, Astrophysics::Galaxy Astrophysics, Jupiter mass, brown dwarfs, ISM: general

Abstract

We investigate the process of accretion of interstellar gas by the Galactic population of brown dwarfs over very long timescales typical for physical eschatology. In particular, we use the classical Hoyle-Lyttleton-Bondi accretion model to investigate the rate at which brown dwarfs collect enough additional mass to become red dwarfs, accretion-induced changes in the mass function of the low- mass objects, and the corresponding accretion heating of brown dwarfs. In addition, we show how we can make the definition of the final mass function for stellar objects more precise.

Published

2005