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Universality in nonequilibrium lattice systems [[electronic resource] ] : theoretical foundations / / Geza Odor
Universality in nonequilibrium lattice systems [[electronic resource] ] : theoretical foundations / / Geza Odor
Autore Odor Geza
Pubbl/distr/stampa Hackensack, NJ, : World Scientific, c2008
Descrizione fisica 1 online resource (296 p.)
Disciplina 530.15/95
Soggetto topico Scaling laws (Statistical physics)
Lattice theory
Self-organizing systems
Phase transformations (Statistical physics)
Differentiable dynamical systems
Soggetto genere / forma Electronic books.
ISBN 1-281-96090-X
9786611960902
981-281-229-6
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto 1. Introduction. 1.1. Critical exponents of equilibrium (thermal) systems. 1.2. Static percolation cluster exponents. 1.3. Dynamical critical exponents. 1.4. Crossover between classes. 1.5. Critical exponents and relations of spreading processes. 1.6. Field theoretical approach to reaction-diffusion systems. 1.7. The effect of disorder -- 2. Out of equilibrium classes. 2.1. Field theoretical description of dynamical classes at and below T[symbol]. 2.2. Dynamical classes at T[symbol] > 0. 2.3. Ising classes. 2.4. Potts classes. 2.5. XY model classes. 2.6. O(N) symmetric model classes -- 3. Genuine basic nonequilibrium classes with fluctuating ordered states. 3.1. Driven lattice gas (DLG) classes -- 4. Genuine basic nonequilibrium classes with absorbing state. 4.1. Mean-field classes of general nA[symbol](n+k)A, mA[symbol](m-l)A processes. 4.2. Directed percolation (DP) classes. 4.3. Generalized, n-particle contact processes. 4.4. Dynamical isotropic percolation (DIP) classes. 4.5. Voter model (VM) classes. 4.6. Parity conserving (PC) classes. 4.7. Classes in models with n < m production and m particle annihilation at [symbol]=0. 4.8. Classes in models with n < m production and m particle coagulation at [symbol]=0; reversible reactions (1R). 4.9. Generalized PC models. 4.10. Multiplicative noise classes -- 5. Scaling at first-order phase transitions. 5.1. Tricritical directed percolation classes (TDP). 5.2. Tricritical DIP classes -- 6. Universality classes of multi-component systems. 6.1. The A+B[symbol]� classes. 6.2. AA[symbol]�, BB[symbol]� with hard-core exclusion. 6.3. Symmetrical, multi-species A[symbol]+A[symbol][symbol]�(q-MAM) classes. 6.4. Heterogeneous, multi-species A[symbol]+A[symbol][symbol]� system. 6.5. Unidirectionally coupled ARW classes. 6.6. DP coupled to frozen field classes. 6.7. DP with coupled diffusive field classes. 6.8. BARWe with coupled non-diffusive field class. 6.9. DP with diffusive, conserved slave field classes. 6.10. DP with frozen, conserved slave field classes. 6.11. Coupled N-component DP classes. 6.12. Coupled N-component BARW2 classes. 6.13. Hard-core 2-BARW2 classes in one dimension -- 7. Surface-interface growth classes. 7.1. The random deposition class. 7.2. Edwards-Wilkinson (EW) classes. 7.3. Quench disordered EW classes (QEW). 7.4. Kardar-Parisi-Zhang (KPZ) classes. 7.5. Other continuum growth classes. 7.6. Unidirectionally coupled DP classes. 7.7. Unidirectionally coupled PC classes -- 8. Summary and outlook.
Record Nr. UNINA-9910453710003321
Odor Geza  
Hackensack, NJ, : World Scientific, c2008
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Universality in nonequilibrium lattice systems [[electronic resource] ] : theoretical foundations / / Geza Odor
Universality in nonequilibrium lattice systems [[electronic resource] ] : theoretical foundations / / Geza Odor
Autore Odor Geza
Pubbl/distr/stampa Hackensack, NJ, : World Scientific, c2008
Descrizione fisica 1 online resource (296 p.)
Disciplina 530.15/95
Soggetto topico Scaling laws (Statistical physics)
Lattice theory
Self-organizing systems
Phase transformations (Statistical physics)
Differentiable dynamical systems
ISBN 1-281-96090-X
9786611960902
981-281-229-6
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto 1. Introduction. 1.1. Critical exponents of equilibrium (thermal) systems. 1.2. Static percolation cluster exponents. 1.3. Dynamical critical exponents. 1.4. Crossover between classes. 1.5. Critical exponents and relations of spreading processes. 1.6. Field theoretical approach to reaction-diffusion systems. 1.7. The effect of disorder -- 2. Out of equilibrium classes. 2.1. Field theoretical description of dynamical classes at and below T[symbol]. 2.2. Dynamical classes at T[symbol] > 0. 2.3. Ising classes. 2.4. Potts classes. 2.5. XY model classes. 2.6. O(N) symmetric model classes -- 3. Genuine basic nonequilibrium classes with fluctuating ordered states. 3.1. Driven lattice gas (DLG) classes -- 4. Genuine basic nonequilibrium classes with absorbing state. 4.1. Mean-field classes of general nA[symbol](n+k)A, mA[symbol](m-l)A processes. 4.2. Directed percolation (DP) classes. 4.3. Generalized, n-particle contact processes. 4.4. Dynamical isotropic percolation (DIP) classes. 4.5. Voter model (VM) classes. 4.6. Parity conserving (PC) classes. 4.7. Classes in models with n < m production and m particle annihilation at [symbol]=0. 4.8. Classes in models with n < m production and m particle coagulation at [symbol]=0; reversible reactions (1R). 4.9. Generalized PC models. 4.10. Multiplicative noise classes -- 5. Scaling at first-order phase transitions. 5.1. Tricritical directed percolation classes (TDP). 5.2. Tricritical DIP classes -- 6. Universality classes of multi-component systems. 6.1. The A+B[symbol]� classes. 6.2. AA[symbol]�, BB[symbol]� with hard-core exclusion. 6.3. Symmetrical, multi-species A[symbol]+A[symbol][symbol]�(q-MAM) classes. 6.4. Heterogeneous, multi-species A[symbol]+A[symbol][symbol]� system. 6.5. Unidirectionally coupled ARW classes. 6.6. DP coupled to frozen field classes. 6.7. DP with coupled diffusive field classes. 6.8. BARWe with coupled non-diffusive field class. 6.9. DP with diffusive, conserved slave field classes. 6.10. DP with frozen, conserved slave field classes. 6.11. Coupled N-component DP classes. 6.12. Coupled N-component BARW2 classes. 6.13. Hard-core 2-BARW2 classes in one dimension -- 7. Surface-interface growth classes. 7.1. The random deposition class. 7.2. Edwards-Wilkinson (EW) classes. 7.3. Quench disordered EW classes (QEW). 7.4. Kardar-Parisi-Zhang (KPZ) classes. 7.5. Other continuum growth classes. 7.6. Unidirectionally coupled DP classes. 7.7. Unidirectionally coupled PC classes -- 8. Summary and outlook.
Record Nr. UNINA-9910782229903321
Odor Geza  
Hackensack, NJ, : World Scientific, c2008
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Universality in nonequilibrium lattice systems [[electronic resource] ] : theoretical foundations / / Geza Odor
Universality in nonequilibrium lattice systems [[electronic resource] ] : theoretical foundations / / Geza Odor
Autore Odor Geza
Pubbl/distr/stampa Hackensack, NJ, : World Scientific, c2008
Descrizione fisica 1 online resource (296 p.)
Disciplina 530.15/95
Soggetto topico Scaling laws (Statistical physics)
Lattice theory
Self-organizing systems
Phase transformations (Statistical physics)
Differentiable dynamical systems
ISBN 1-281-96090-X
9786611960902
981-281-229-6
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto 1. Introduction. 1.1. Critical exponents of equilibrium (thermal) systems. 1.2. Static percolation cluster exponents. 1.3. Dynamical critical exponents. 1.4. Crossover between classes. 1.5. Critical exponents and relations of spreading processes. 1.6. Field theoretical approach to reaction-diffusion systems. 1.7. The effect of disorder -- 2. Out of equilibrium classes. 2.1. Field theoretical description of dynamical classes at and below T[symbol]. 2.2. Dynamical classes at T[symbol] > 0. 2.3. Ising classes. 2.4. Potts classes. 2.5. XY model classes. 2.6. O(N) symmetric model classes -- 3. Genuine basic nonequilibrium classes with fluctuating ordered states. 3.1. Driven lattice gas (DLG) classes -- 4. Genuine basic nonequilibrium classes with absorbing state. 4.1. Mean-field classes of general nA[symbol](n+k)A, mA[symbol](m-l)A processes. 4.2. Directed percolation (DP) classes. 4.3. Generalized, n-particle contact processes. 4.4. Dynamical isotropic percolation (DIP) classes. 4.5. Voter model (VM) classes. 4.6. Parity conserving (PC) classes. 4.7. Classes in models with n < m production and m particle annihilation at [symbol]=0. 4.8. Classes in models with n < m production and m particle coagulation at [symbol]=0; reversible reactions (1R). 4.9. Generalized PC models. 4.10. Multiplicative noise classes -- 5. Scaling at first-order phase transitions. 5.1. Tricritical directed percolation classes (TDP). 5.2. Tricritical DIP classes -- 6. Universality classes of multi-component systems. 6.1. The A+B[symbol]� classes. 6.2. AA[symbol]�, BB[symbol]� with hard-core exclusion. 6.3. Symmetrical, multi-species A[symbol]+A[symbol][symbol]�(q-MAM) classes. 6.4. Heterogeneous, multi-species A[symbol]+A[symbol][symbol]� system. 6.5. Unidirectionally coupled ARW classes. 6.6. DP coupled to frozen field classes. 6.7. DP with coupled diffusive field classes. 6.8. BARWe with coupled non-diffusive field class. 6.9. DP with diffusive, conserved slave field classes. 6.10. DP with frozen, conserved slave field classes. 6.11. Coupled N-component DP classes. 6.12. Coupled N-component BARW2 classes. 6.13. Hard-core 2-BARW2 classes in one dimension -- 7. Surface-interface growth classes. 7.1. The random deposition class. 7.2. Edwards-Wilkinson (EW) classes. 7.3. Quench disordered EW classes (QEW). 7.4. Kardar-Parisi-Zhang (KPZ) classes. 7.5. Other continuum growth classes. 7.6. Unidirectionally coupled DP classes. 7.7. Unidirectionally coupled PC classes -- 8. Summary and outlook.
Record Nr. UNINA-9910820074003321
Odor Geza  
Hackensack, NJ, : World Scientific, c2008
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui