Verfügbarkeit: Phase transition dynamics

Phase transition dynamics:

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Bibliographische Detailangaben
Hauptverfasser:	Ma, Tian 1956- (VerfasserIn), Wang, Shouhong 1962- (VerfasserIn)
Format:	Buch
Sprache:	German
Veröffentlicht:	New York [u.a.] Springer 2014
Schlagworte:	Phasenumwandlung Topologische Phase Partielle Differentialgleichung Dynamik Dissipatives System
Online-Zugang:	Inhaltsverzeichnis Klappentext
Beschreibung:	XXII, 555 S. graph. Darst.
ISBN:	9781461489627

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Datensatz im Suchindex

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adam_text	Contents Introduction .......................................................xvii 1 Introduction to Dynamic Transitions ............................. 1 1.1 First Principles and Dynamic Models .......................... 1 1.1.1 Physical Laws and Mathematical Models ................ 1 1.1.2 Rayleigh-Bénard Convection .......................... 2 1.1.3 Mathematical Formulation of Physical Problems .......... 5 1.2 Introduction to Dynamic Transition Theory ..................... 7 1.2.1 Motivation and Key Philosophy ........................ 7 1.2.2 Principle of Exchange of Stability ...................... 7 1.2.3 Equation of Critical Parameters ........................ 8 1.2.4 Classifications of Dynamic Transitions .................. 9 1.2.5 Structure and Characterization of Dynamic Transitions ..... 11 1.2.6 General Features of Dynamic Transitions ................ 12 1.3 Examples of Typical Phase Transition Problems ................. 14 1.3.1 Rayleigh-Bénard Convection .......................... 14 1.3.2 El Niño Southern Oscillation .......................... 15 1.3.3 Dynamic Transition Versus Transition in Physical Space ... 17 1.3.4 Andrews Critical Point and Third-Order Gas-Liquid Transition .......................................... 20 1.3.5 Binary Systems ...................................... 21 2 Dynamic Transition Theory ..................................... 25 2.1 General Dynamic Transition Theory ........................... 25 2.1.1 Classification of Dynamic Transitions ................... 25 2.1.2 Characterization of Transition Types .................... 28 2.1.3 Local Topological Structure of Transitions ............... 30 2.2 Continuous Transition ....................................... 34 2.2.1 Finite-Dimensional Systems ........................... 34 2.2.2 Sl -Attractor Bifurcation ............................... 35 2.2.3 y-Attractor Bifurcation .............................. 42 Xl Contents 2.2.4 Structural Stability of Dynamic Transitions .............. 42 2.2.5 Infinite-Dimensional Systems .......................... 44 2.3 Transition from Simple Eigenvalues ........................... 46 2.3.1 Real Simple Eigenvalues .............................. 46 2.3.2 Transitions from Complex Simple Eigenvalues ........... 49 2.3.3 Computation of b .................................... 55 2.4 Transition from Eigenvalues with Multiplicity Two .............. 57 2.4.1 Index Formula for Second-Order Nondegenerate Singularities ........................................ 57 2.4.2 Bifurcation at Second-Order Singular Points ............. 60 2.4.3 The Case ind (F,0) = -2............................. 65 2.4.4 The Case ind (F,0) = 2............................... 70 2.4.5 The Case ind (F, 0) = 0............................... 78 2.4.6 Indices of Äth-order Nondegenerate Singularities .......... 80 2.4.7 Structure of fcth-Order Nondegenerate Singularities ........ 91 2.4.8 Transition from fcth-Order Nondegenerate Singularities .... 93 2.4.9 Bifurcation to Periodic Orbits .......................... 97 2.4.10 Application to Parabolic Systems ....................... 99 2.5 Singular Separation ......................................... 101 2.5.1 General Principle ....................................101 2.5.2 Saddle-Node Bifurcation ..............................103 2.5.3 Singular Separation of Periodic Orbits ...................106 2.6 Perturbed Systems ..........................................107 2.6.1 General Eigenvalues ..................................107 2.6.2 Simple Eigenvalues ..................................109 2.6.3 Complex Eigenvalues .................................113 2.7 Notes .....................................................121 Equilibrium Phase Transition in Statistical Physics ................123 3.1 Dynamic Models for Equilibrium Phase Transitions ..............124 3.1.1 Thermodynamic Potentials ............................125 3.1.2 Time-Dependent Equations ............................127 3.2 Classification of Equilibrium Phase Transitions .................131 3.3 Third-Order Gas-Liquid Phase Transition ......................133 3.3.1 Introduction .........................................133 3.3.2 Time-Dependent Models for PVT Systems ...............134 3.3.3 Phase Transition Dynamics for PVT Systems .............136 3.3.4 Physical Conclusions .................................139 3.4 Ferromagnetism ............................................142 3.4.1 Classical Theory of Ferromagnetism ....................142 3.4.2 Dynamic Transitions in Ferromagnetism .................146 3.4.3 Physical Implications .................................150 3.4.4 Asymmetry of Fluctuations ............................152 3.5 Phase Separation in Binary Systems ...........................153 3.5.1 Modeling ...........................................154 Contents Xlii 3.5.2 Phase Transition in General Domains...................155 3.5.3 Phase Transition in Rectangular Domains................160 3.5.4 Spatial Geometry, Transitions, and Pattern Formation ......171 3.5.5 Phase Diagrams and Physical Conclusions ...............174 3.6 Superconductivity ..........................................181 3.6.1 Ginzburg-Landau Model ..............................182 3.6.2 TGDL as a Gradient-Type System ......................186 3.6.3 Phase Transition Theorems ............................189 3.6.4 Model Coupled with Entropy ..........................197 3.6.5 Physical Conclusions .................................198 3.7 Liquid Helium^ ...........................................208 3.7.1 Dynamic Model for Liquid Helium-4 ...................209 3.7.2 Dynamic Phase Transition for Liquid 4He ...............212 3.8 Superfluidity of Helium-3 ...................................218 3.8.1 Dynamic Model for Liquid 3He with Zero Applied Field ... 221 3.8.2 Critical Parameter Curves and РГ -Phase Diagram .........223 3.8.3 Classification of Superfluid Transitions ..................229 3.8.4 Liquid 3He with Nonzero Applied Field .................235 3.8.5 Physical Remarks ....................................239 3.9 Mixture of He-3 and He-4 ...................................239 3.9.1 Model for Liquid Mixture of 3He and 4He ...............240 3.9.2 Critical Parameter Curves .............................242 3.9.3 Transition Theorems .................................243 3.9.4 Physical Conclusions .................................248 4 Fluid Dynamics ................................................249 4.1 Rayleigh-Bénard Convection .................................250 4.1.1 Benard Problem .....................................250 4.1.2 Boussinesq Equations ................................251 4.1.3 Dynamic Transition Theorems .........................253 4.1.4 Topological Structure and Pattern Formation .............258 4.1.5 Asymptotic Structure of Solutions for the Benard Problem ............................................267 4.1.6 Structure of Bifurcated Attractors .......................269 4.1.7 Physical Remarks ....................................277 4.2 Taylor-Couette Flow ........................................277 4.2.1 Taylor Problem ......................................278 4.2.2 Governing Equations .................................279 4.2.3 Narrow-Gap Case with Axisymmetric Perturbations .......282 4.2.4 Asymptotic Structure of Solutions and Taylor Vortices .....286 4.2.5 Taylor Problem with z-Periodic Boundary Condition .......293 4.2.6 Other Boundary Conditions ............................309 4.2.7 Three-Dimensional Perturbation for the Narrow-Gap Case ...............................................313 4.2.8 Physical Remarks ....................................315 xiv Contents 4.3 Boundary-Layer and Interior Separations in the Taylor-Couette— Poiseuille Flow ............................................317 4.3.1 Model for the Taylor-Couette-Poiseuille Problem .........318 4.3.2 Phase Transition of the TCP Problem ...................321 4.3.3 Boundary-Layer Separation from the Couette— Poiseuille Row ...............................................325 4.3.4 Interior Separation from the Couette— Poiseuille Flow ......332 4.3.5 Nature of Boundary-Layer and Interior Separations ........336 4.4 Rotating Convection Problem ................................340 4.4.1 Rotating Boussinesq Equations .........................341 4.4.2 Eigenvalue Problem ..................................342 4.4.3 Principle of Exchange of Stabilities .....................347 4.4.4 Transition from First Real Eigenvalues ..................354 4.4.5 Transition from First Complex Eigenvalues ..............360 4.4.6 Physical Remarks ....................................365 4.5 Convection Scale Theory ....................................368 5 Geophysical Fluid Dynamics and Climate Dynamics ...............373 5.1 Modeling and General Characteristics of Geophysical Flows ......374 5.2 El Niño— Southern Oscillation ................................376 5.2.1 Walker Circulation and ENSO .........................377 5.2.2 Equatorial Circulation Equations .......................378 5.2.3 Walker Circulation Under Idealized Conditions ...........380 5.2.4 Walker Circulation Under Natural Conditions ............387 5.2.5 ENSO: Metastable Oscillation Theory ...................393 5.3 Thermohaline Ocean Circulation ..............................396 5.3.1 Boussinesq Equations ................................398 5.3.2 Linear Analysis ......................................400 5.3.3 Nonlinear Dynamic Transitions ........................409 5.3.4 Convection Scales and Dynamic Transition ..............416 5.4 Arctic Ocean Circulations ...................................425 5.4.1 Model ..............................................426 5.4.2 Linear Theory .......................................427 5.4.3 Transition Theorems .................................432 5.4.4 Revised Transition Theory ............................435 5.4.5 Physical Conclusions .................................437 5.5 Large-Scale Meridional Atmospheric Circulation ................438 5.5.1 Polar, Ferrei, and Hadley Cells .........................438 5.5.2 0-Plane Assumption .................................439 5.5.3 Meridional Circulation Under Idealized Conditions ........441 5.5.4 Physical Implications .................................445 Contents xv 6 Dynamical Transitions in Chemistry and Biology ..................447 6.1 Modeling .................................................448 6.1.1 Dynamical Equations of Chemical Reactions .............448 6.1.2 Population Models of Biological Species ................450 6.2 Belousov-Zhabotinsky Chemical Reactions: Oregonator ..........452 6.2.1 The Field-Kőrös-Noyes Equations .....................452 6.2.2 Transition Under the Dirichlet Boundary Condition ........455 6.2.3 Transitions Under the Neumann Boundary Condition ......459 6.2.4 Phase Transition in the Realistic Oregonator ..............470 6.3 Belousov-Zhabotinsky Reactions: Brusselator ..................475 6.3.1 Prigogine-Lefever Model .............................476 6.3.2 Linearized Problem ..................................477 6.3.3 Transition from Real Eigenvalues .......................479 6.3.4 Transition from Complex Eigenvalues ...................480 6.4 Bacterial Chemotaxis .......................................482 6.4.1 Keller-Segel Models .................................483 6.4.2 Dynamic Transitions for a Rich Stimulant System .........489 6.4.3 Transition of Three-Component Systems ................499 6.4.4 Biological Conclusions ...............................506 6.5 Biological Species ..........................................508 6.5.1 Modeling ...........................................508 6.5.2 Predator-Prey Systems ...............................510 6.5.3 Three-Species Systems ...............................517 Appendix A ........................................................527 A. 1 Formulas for Center Manifold Functions .......................527 A.2 Dynamics of Gradient-Type Systems ..........................533 References .........................................................541 Index .............................................................553 Tian Ma · Shouhong Wang Phase Transition Dynamics This book is an introduction to a comprehensive and unified dynamic transition theory for dissipative systems and to applications of the theory to a range of problems in the nonlinear sciences. The main objectives of this book are to introduce a general principle of dynamic transitions for dissipative systems, to establish a systematic dynamic transition theory, and to explore the physical implications of applications of the theory to a range of problems in the nonlinear sciences. The basic philosophy of the theory is to search for a complete set of transition states, and the general principle states that dynamic transitions of all dissipative systems can be classified into three categories: continuous, catastrophic and random. The audience for this book includes advanced graduate students and researchers in mathematics and physics as well as in other related fields.
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spelling	Ma, Tian 1956- Verfasser (DE-588)136728367 aut Phase transition dynamics Tian Ma ; Shouhong Wang New York [u.a.] Springer 2014 XXII, 555 S. graph. Darst. txt rdacontent n rdamedia nc rdacarrier Phasenumwandlung (DE-588)4132140-6 gnd rswk-swf Topologische Phase (DE-588)113303408X gnd rswk-swf Partielle Differentialgleichung (DE-588)4044779-0 gnd rswk-swf Dynamik (DE-588)4013384-9 gnd rswk-swf Dissipatives System (DE-588)4209641-8 gnd rswk-swf Partielle Differentialgleichung (DE-588)4044779-0 s Phasenumwandlung (DE-588)4132140-6 s Dissipatives System (DE-588)4209641-8 s Dynamik (DE-588)4013384-9 s Topologische Phase (DE-588)113303408X s 1\p DE-604 Wang, Shouhong 1962- Verfasser (DE-588)1065187831 aut Erscheint auch als Online-Ausgabe 978-1-4614-8963-4 Digitalisierung UB Bayreuth - ADAM Catalogue Enrichment application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=026229985&sequence=000003&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis Digitalisierung UB Bayreuth - ADAM Catalogue Enrichment application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=026229985&sequence=000004&line_number=0002&func_code=DB_RECORDS&service_type=MEDIA Klappentext 1\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk
spellingShingle	Ma, Tian 1956- Wang, Shouhong 1962- Phase transition dynamics Phasenumwandlung (DE-588)4132140-6 gnd Topologische Phase (DE-588)113303408X gnd Partielle Differentialgleichung (DE-588)4044779-0 gnd Dynamik (DE-588)4013384-9 gnd Dissipatives System (DE-588)4209641-8 gnd
subject_GND	(DE-588)4132140-6 (DE-588)113303408X (DE-588)4044779-0 (DE-588)4013384-9 (DE-588)4209641-8
title	Phase transition dynamics
title_auth	Phase transition dynamics
title_exact_search	Phase transition dynamics
title_full	Phase transition dynamics Tian Ma ; Shouhong Wang
title_fullStr	Phase transition dynamics Tian Ma ; Shouhong Wang
title_full_unstemmed	Phase transition dynamics Tian Ma ; Shouhong Wang
title_short	Phase transition dynamics
title_sort	phase transition dynamics
topic	Phasenumwandlung (DE-588)4132140-6 gnd Topologische Phase (DE-588)113303408X gnd Partielle Differentialgleichung (DE-588)4044779-0 gnd Dynamik (DE-588)4013384-9 gnd Dissipatives System (DE-588)4209641-8 gnd
topic_facet	Phasenumwandlung Topologische Phase Partielle Differentialgleichung Dynamik Dissipatives System
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=026229985&sequence=000003&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=026229985&sequence=000004&line_number=0002&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT matian phasetransitiondynamics AT wangshouhong phasetransitiondynamics

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