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Dynamical Evolution of Galaxies

Name: Dynamical Evolution of Galaxies
Brand: De Gruyter
Price: 681.28 PLN
Availability: InStock

ISBN-13: 9783110525199 / Angielski / Twarda / 2017 / 337 str.

Xiaolei Zhang

Dynamical Evolution of Galaxies

ISBN-13: 9783110525199 / Angielski / Twarda / 2017 / 337 str.

Xiaolei Zhang

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This research monograph presents a new dynamical framework for the study of secular dynamical evolution of galaxies. Classical approaches based on Boltzmann's kinetic equation, as well as on its moment-equation descendants the Euler and Navier-Stokes fluid equations, are inadequate for treating the maintenance and long-term evolution of systems containing self-organized structures such as galactic density-wave modes. A global and synthetic approach, incorporating correlated fluctuations of the constituent particles during a nonequilibrium phase transition, is adopted to supplement the continuum treatment. The cutting-edge research combining analytical, N-body simulational, and observational aspects, as well as the fundamental-physics connections it provides, make this work a valuable reference for researchers and graduate students in astronomy, astrophysics, cosmology, many-body physics, complexity theory, and other related fields.ContentsDynamical Drivers of Galaxy EvolutionN-Body Simulations of Galaxy EvolutionAstrophysical Implications of the Dynamical TheoryPutting It All TogetherConcluding RemarksAppendix: Relation to Kinetics and Fluid Mechanics

Kategorie:

Nauka, Fizyka

Kategorie BISAC:

Science > Astronomia, przestrzeń i czas
Science > Mechanics - General
Science > Astrofizyka

Wydawca:

De Gruyter

Język:

Angielski

ISBN-13:

9783110525199

Rok wydania:

2017

Dostępne języki:

Angielski

Ilość stron:

337

Waga:

0.78 kg

Wymiary:

24.024.0 x 17.0

Oprawa:

Twarda

Wolumenów:

Dodatkowe informacje:

Wydanie ilustrowane

Content

Preface page
1 Introduction
1.1 Observational Background
1.2 Theoretical Background
1.3 Organization of the Material

2 Drivers of Secular Morphological Evolution of Galaxies
2.1 Motivations for the Theoretical Approach
2.2 Density Wave Crest as the Site of Gravitational Instability
2.3 Potential-Density Phase Shifts for Density Wave Modes
2.4 Linear Regime and Quasi-Steady State of the Wave Modes
2.5 Torque Coupling and Angular Momentum Transport
2.6 Rates of Secular Evolution
2.7 Relation to Broadening of Resonances
2.8 In a Nutshell

3 Verification of Analytical Results through N-Body Simulations
3.1 Overview of the N-Body Simulations of Disk Galaxies
3.2 Simulation Codes and Basic State Specifications
3.3 Signature of Collisionless Shock in N-Body Spirals
3.4 Modal Nature of a Spontaneously-Formed Pattern
3.5 Qualitative Signature of Secular Mass Redistribution
3.6 Longevity of the Spiral Modes
3.7 Role of Gas
3.8 Implication on Orbits as Building Blocks
3.9 Second Generation Tests

4 Astrophysical Implications of the New Dynamical Theory
4.1 Motivations and General Outline
4.2 Potential-Density Phase Shift (PDPS) Method for CR Determination
4.3 Secular Mass Migration and Bulge Building
4.4 Secular Heating and The Age-Velocity-Dispersion Relation
4.5 Secular Heating and the Size-Linewidth Relation
4.6 Other Characteristics of the Milky Way Galaxy and External Galaxies
4.7 Universal Rotation Curve
4.8 Secular Evolution and the Maintenance of Galaxy Scaling Relations
4.9 Butcher-Oemler Effect and Evolution of Cluster Galaxies
4.10 Secular Evolution and the Origin of Color-Magnitude Relation
4.11 An Example of Secular Evolution in Interacting Galaxies
4.12 Black-Hole-Mass and Bulge-Mass Correlation

5 Putting in All Together: What We Have Learned So Far
5.1 Reexamine the Foundations
5.2 Role of Basic State Specification
5.3 Broader Implications
5.4 Implications on the Cosmological Evolution of Galaxies

6 Concluding Remarks

7 Appendix. Nonequilibrium Phase Transition and Classical Mechanics
7.1 Foundation of Kinetic Theory: the Boltzmann Equation
7.2 From Kinetic Theory to Fluid Mechanics
7.3 Nonequilibrium Phase Transition and Galaxy Evolution
7.4 The Proper Choice of Hierarchies

8 References

Xiaolei Zhang, George Mason University, USA

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