Non-stationarity of Open Star Clusters
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Тематика:
Звездная астрономия
Издательство:
Издательство Уральского университета
Автор:
Данилов Владимир Михайлович
Год издания: 2021
Кол-во страниц: 352
Дополнительно
Вид издания:
Монография
Уровень образования:
ВО - Магистратура
ISBN: 978-5-7996-3173-4
Артикул: 800395.01.99
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The monograph poses issues related to the study of the non-stationarity of open star clusters (OSCs), starting with an analysis of the properties of the trajectories of individual stars to the study of collective motion of stars. A discussion of the dynamics of correlations and wave processes in such clusters is presented. The mechanisms of the dynamic evolution of OSCs, the gravitational instability of OSC nuclei, the spectra of frequencies and wavenunibers for oscillations of numerical models of OSCs, astrophysical applications of the results of studies of the dynamics of OSCs are considered. We address the monograph to academic researchers (astronomers and physicists) who are interested in astrophysics, the dynamics of stellar systems, and PliD and senior students of relevant specialities.
Тематика:
ББК:
УДК:
ОКСО:
- ВО - Магистратура
- 03.04.02: Физика
- ВО - Специалитет
- 03.05.01: Астрономия
- 03.05.02: Фундаментальная и прикладная физика
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Фрагмент текстового слоя документа размещен для индексирующих роботов
Ministry of science and higher education of the Russian Federation Ural Federal University named after the first President of Russia B. N. Yeltsin Vladimir M. Danilov Non-stationarity of Open Star Clusters Monograph Ekaterinburg Ural University Press 2021
UDK 524.4 D183
Translation from Russian by E. Shabalina and A. F. Seleznev
Reviewers:
B. P. Kondratyev, Doctor of Science, Professor (MSU)
N. V. Emelyanov, Doctor of Science, Head of the Section of Celestial Mechanics SAI MSU;
V. E. Zharov, Doctor of Science, Professor, Head of the Department of Celestial Mechanics SAI MSU;
Yu. V. Khachay, Doctor of Science, Professor (Geophysics Institute of the Ural Branch of the Russian Academy of Sciences)
Danilov, V. M.
D183 Non-stationarity of Open Star Clusters : monograph / V. M. Danilov ; [trans. of E. Shabalina and A. F. Seleznev] ; Ministry of science and higher education of the Russian Federation. - Ekaterinburg : Ural University Press, 2021. - 352 p. - ISBN 978-5-7996-3173-4. - Text : electronic.
ISBN 978-5-7996-3173-4
DOI 10.15826/B978-5-7996-3173-4
The monograph poses issues related to the study of the non-stationarity of open star clusters (OSCs), starting with an analysis of the properties of the trajectories of individual stars to the study of collective motion of stars. A discussion of the dynamics of correlations and wave processes in such clusters is presented. The mechanisms of the dynamic evolution of OSCs, the gravitational instability of OSC nuclei, the spectra of frequencies and wavenumbers for oscillations of numerical models of OSCs, astrophysical applications of the results of studies of the dynamics of OSCs are considered.
We address the monograph to academic researchers (astronomers and physicists) who are interested in astrophysics, the dynamics of stellar systems, and PhD and senior students of relevant specialities.
UDK 524.4
ISBN 978-5-7996-3173-4 © Данилов В. М., 2015
© Shabalina E. , Seleznev A.F., translation to English, 2021 © Mironov K. V., cover photo, 2011 © English Edition, typography Ural University Press, 2021
Foreword
We live in the era of the Gaia satellite and the expectation of a revolution in the study of stellar systems. Its precise astrometry provides us with a sharp snapshot of the actual 3D structure of several nearby star clusters, while kinematics offer insights on their evolution. Detailed theory has to be developed, to interpret this wealth of data, and to cast light on processes like star formation and dynamical evolution of star clusters. The focus of this book is on open, or Galactic, star clusters, which populated the disc of the Milky Way, and are typically composed of less than 100 up to afew 1000 stars. Many of them survive little time and dissolve fast into the general Galactic field. Most (and extremely valuable) work has been done in the past in this field, essentially thanks to the efforts of Sverre Aarseth and collaborators, and the various releases of his N-body code. This book summarises another, independent and original, effort. The author, Vladimir M. Danilov, from Ural Federal University in Russia, has spent his scientific career to develop analytical and numerical methods to study open cluster dynamical evolution. The focus is on non-stationarity, which effectively evokes the idea of time evolution, sudden changes, phase mixing, re-organisation of trajectories of individual stars, collective processes, and so forth. Open clusters are lively entities, rapidly evolving and highly sub-structured. Most of the results of this life-long studies are included in papers published in Russian journals which, unfortunately, got little attention by foreign researchers. This comprehensive book, translated from the original in Russian, contains the most important results of Danilov work with a lot of details, and is intended for researchers in Galactic dynamics and N-body methods. It is not an easy book, but it offers to everybody the opportunity to hear a different voice, to consult an independent opinion from another world.
Padova, July 2020 Giovanni Carraro
iii
Acknowledgements
Author expresses his gratitude to Miss E. Shabalina, who performed a huge work to translate to English a very complicated Russian text, and to Dr. Anton F. Seleznev, who finished and edited the translation and prepared the layout of the book.
The work of V.M.D. was supported by the Ministry of Science and Higher Education of the Russian Federation, FEUZ-2020-0030 and also by the Act No. 211 of the Government of the Russian Federation, agreement No. 02. A03.21.0006.
v
Contents
1 Introduction ........................................................ 1
References ......................................................... 8
2 Motion of Halo Stars in the Numerical Dynamical Models of Open Star Clusters .......................................................... 11
2.1 Introduction ................................................. 11
2.2 DescriptionofOSCModels........................................ 12
2.3 Small Parameter in the Equations of Stellar Motion ........... 16
2.4 Stellar Motion Frequencies in OSC Models ..................... 19
2.5 Conclusions .................................................. 21
References ........................................................ 22
3 Properties of Stellar Trajectories in Numerical Dynamical Models of Open Stellar Clusters ............................................... 25
3.1 Introduction ................................................. 25
3.2 Basic Formulas and Notations ................................. 28
3.3 The Lyapunov Times and Oscillation Periods of Stellar Trajectories 29
3.4 Conclusions .................................................. 41
References ........................................................ 42
4 Dynamic Models of the Stellar Motion at the Periphery of Open Star Clusters .......................................................... 45
4.1 Introduction ................................................. 45
4.2 Equations and Integrals of Stellar Motion .................... 47
4.3 Stellar Motion in the Plane (£, ^) ........................... 51
4.4 Phase Density Function Depending on the Integrals J1 and J2 .. 56
4.5 Distribution of the Stellar Velocities in the Case of Three-Integral PDF ............................................................... 62
4.6 Conclusions .................................................. 66
References ........................................................ 67
vii
viii
Contents
5 Investigation of the Stellar Trajectories in the Two-Point Model of Open Star Cluster ........................................................ 69
5.1 Introduction ....................................................... 69
5.2 Two-Point Model of Non-Isolated Star Cluster ....................... 73
5.3 Calculation of Separatrix .......................................... 77
5.4 Canonical Form of Equations in Variations .......................... 78
5.5 Construction of Poincare Sections................................... 81
5.6 Discussion of The Properties of Stellar Trajectories ............... 84
5.7 Conclusions ........................................................ 89
References .............................................................. 90
6 Time Scales of Dynamic Evolution Mechanisms of Open Star Clusters 93
6.1 Introduction ....................................................... 93
6.2 Description of OSC Models .......................................... 96
6.3 Basic Calculation Techniques ....................................... 98
6.4 Changes in the Parameters of Stellar Velocity Distribution with
Time. Instability of Phase Density to Small Initial Perturbations . 100
6.5 Conclusions ....................................................... 110
References ............................................................. 111
7 Analysis of Density Oscillations in Models of Open Star Clusters ....... 115
7.1 Introduction ...................................................... 115
7.2 Oscillations ofa Homogeneous Triaxial Gravitating Ellipsoid ....... 116
7.3 Nonhomological Oscillations of Я-Ellipsoid..........................121
7.4 Three-Integral Equilibrium Function of Phase Density............... 123
7.5 The Boltzmann Equation ............................................ 125
7.6 Instability of Phase Density Oscillations in the Cores of OSC
Models. Estimates of Parameters and Consequences of Such Oscillations ...................................................... 129
7.7 Conclusions ....................................................... 134
References ............................................................. 136
8 On Phase Density Oscillations at the Centers of Six Open Star Clusters ................................................................ 137
8.1 Introduction ...................................................... 137
8.2 Structural Parameters of Six OSC .................................. 138
8.3 Structural and Dynamic Parameters of Six OSC Models ............... 145
8.4 Dynamic Parameters of Six OSC and Two OSC Models .................. 148
8.5 Analysis of Dependencies Between the Parameters of Unstable Oscillations of Phase Density in the Centers of the Considered OSCs and Cluster Models ............................................ 153
8.6 Conclusions ....................................................... 159
References ............................................................. 160
Contents
ix
9 On the Dynamics of Open Star Clusters ............................... 163
9.1 Introduction ................................................... 163
9.2 Stellar Velocity Dispersion in the OSC Models .................. 165
9.3 Instability Parameters of OSC and their Models ................. 170
9.4 Structure of Regions of the PD Oscillation Instability in the Centers of Six OSCs ......................................................... 175
9.5 Conclusions .................................................... 182
References .......................................................... 183
10 Parameters of Nonstationarity of Open Star Clusters.................. 185
10.1 Introduction .................................................. 185
10.2 Contrast of Densities in the OSC Cores ........................ 187
10.3 Homologous Oscillations of the OSC Models ..................... 190
10.4 Oscillations in the Cores of OSC and OSC Models ............... 197
10.5 Dynamic Dispersions of Stellar Velocities in OSC .............. 205
10.6 Conclusions ................................................... 208
References .......................................................... 209
11 On the Dynamics of Correlations in Models of Open Star Clusters . . . 213
11.1 Introduction .................................................. 213
11.2 Times and Radii of Correlations in OSC Models ................. 215
11.3 Distributions of Correlations ................................. 224
11.4 Fluxes of Correlations in the Space of у f .....................228
11.5 Conclusions ................................................... 234
References .......................................................... 235
12 Correlations, Spectra, and Instability of Phase-Density Oscillations
in Models of Open Star Clusters ..................................... 239
12.1 Introduction .................................................. 239
12.2 Estimates of rc⁽/), vf, vᵣ, vᵥ in theOSC Models.................243
12.3 Cross-Correlation Function .................................... 246
12.4 Frequency Spectra and Dispersion Curves ....................... 248
12.5 Conclusions ................................................... 257
References .......................................................... 259
13 Smoothing of Force Functions and Oscillation Spectra of Open Star Cluster Model ............................................................ 263
13.1 Introduction .................................................. 263
13.2 Ona Connection Between the Parameters of the OSC Model and e . 268
13.3 Cross-Correlation Functions ................................... 270
13.4 Frequency Spectra and Dispersion Curves ....................... 272
13.5 Conclusions ................................................... 279
References .......................................................... 280
x
Contents
14 Spectra of Wave Numbers of Oscillations in OSC Models ............. 283
14.1 Introduction ................................................ 283
14.2 Cross-Correlation Functions ................................. 288
14.3 Spectra of Wave Numbers ..................................... 290
14.4 Dependencies of 5(k) Spectra of OSC Model 1 on e..............296
14.5 Conclusions ................................................. 299
References ....................................................... 300
15 Dynamics of the Coronas of Open Star Clusters ..................... 303
15.1 Introduction ................................................ 303
15.2 Constructing Coronas of OSC models ......................... 307
15.3 Parameters of Coronas of the OSC Models. Mechanisms of Corona Formation and Rate of Dissipation of Stars from Coronas of the OSC Models ....................................................... 308
15.4 Conclusions ................................................ 321
References ....................................................... 322
16 Appendix .......................................................... 327
16.1 DescriptionofOSCModels....................................... 327
16.2 Statistical comparison of OSC models ....................... 330
16.3 Statistical Control of Calculations ........................ 332
References ....................................................... 338
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