Active Matter and Nonequilibrium Statistical Physics
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Active Matter and Nonequilibrium Statistical Physics
Lecture Notes of the Les Houches Summer School: Volume 112, September 2018
Tailleur, Julien; Yeomans, Julia M.; Gompper, Gerhard; Salomon, Christophe; Marchetti, M. Cristina
Oxford University Press
11/2022
672
Dura
Inglês
9780192858313
15 a 20 dias
1368
Descrição não disponível.
Introduction
Part 1: Collective behaviours in active-matter systems
1: Hugues Chate and Benoit Mahault: Dry, aligning, dilute, active matter: A synthetic and self-contained overview
2: John Toner: Why walking is easier than pointing: Hydrodynamics of dry active matter
3: Olivier Dauchot: Collective Motion in Active Materials: Model Experiments
4: Francesc Sagues, Pau Guillamat, Jerome Hardouein, Berta Martinez-Prat, and Jordi Ignes-Mullol: Features of interfaced and confined experimental active nematics
5: Leticia Cugliandolo and Giuseppe Gonnella: Phases of planar active matter
6: Michael E. Cates: Active Field Theories
Part 2: Passive & active colloidal systems
7: Celia Lozano, Tobias Baeuerle, and Clemens Bechinger: "Active brownian particles with programmable interaction rules"
8: Ramin Golestanian: Phoretic Active Matter
9: Thorsten Brazda, Xin Cao, and Clemens Bechinger: Nanotribology of Commensurate and Incommensurate Colloidal Monolayers on Periodic Surfaces
Part 3: From biophysics to active matter
10: Jean-Francois and Joanny Louis Brezin: Tissues as active materials
11: Erwin Frey and Fridtjof Brauns: Self-organisation of protein patterns
12: Eric R. Dufresne: Active materials: Biological benchmarks and transport limitations
Part 4: Non-equilibrium statistical physics, from passive to active
13: Daan Frenkel: Modelling the microscopic origins of active transport
14: Mehran Kardar: Fluctuation Induced Forces in and out of Equilibrium
15: Ludovic Berthier and Jorge Kurchan: Active glassy materials
16: Ydan Ben Dor, Yariv Kafri, and Julien Tailleur: Forces in dry active matter
17: Suzanne M. Fielding: Rheology of complex and active fluids
Part 1: Collective behaviours in active-matter systems
1: Hugues Chate and Benoit Mahault: Dry, aligning, dilute, active matter: A synthetic and self-contained overview
2: John Toner: Why walking is easier than pointing: Hydrodynamics of dry active matter
3: Olivier Dauchot: Collective Motion in Active Materials: Model Experiments
4: Francesc Sagues, Pau Guillamat, Jerome Hardouein, Berta Martinez-Prat, and Jordi Ignes-Mullol: Features of interfaced and confined experimental active nematics
5: Leticia Cugliandolo and Giuseppe Gonnella: Phases of planar active matter
6: Michael E. Cates: Active Field Theories
Part 2: Passive & active colloidal systems
7: Celia Lozano, Tobias Baeuerle, and Clemens Bechinger: "Active brownian particles with programmable interaction rules"
8: Ramin Golestanian: Phoretic Active Matter
9: Thorsten Brazda, Xin Cao, and Clemens Bechinger: Nanotribology of Commensurate and Incommensurate Colloidal Monolayers on Periodic Surfaces
Part 3: From biophysics to active matter
10: Jean-Francois and Joanny Louis Brezin: Tissues as active materials
11: Erwin Frey and Fridtjof Brauns: Self-organisation of protein patterns
12: Eric R. Dufresne: Active materials: Biological benchmarks and transport limitations
Part 4: Non-equilibrium statistical physics, from passive to active
13: Daan Frenkel: Modelling the microscopic origins of active transport
14: Mehran Kardar: Fluctuation Induced Forces in and out of Equilibrium
15: Ludovic Berthier and Jorge Kurchan: Active glassy materials
16: Ydan Ben Dor, Yariv Kafri, and Julien Tailleur: Forces in dry active matter
17: Suzanne M. Fielding: Rheology of complex and active fluids
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Introduction
Part 1: Collective behaviours in active-matter systems
1: Hugues Chate and Benoit Mahault: Dry, aligning, dilute, active matter: A synthetic and self-contained overview
2: John Toner: Why walking is easier than pointing: Hydrodynamics of dry active matter
3: Olivier Dauchot: Collective Motion in Active Materials: Model Experiments
4: Francesc Sagues, Pau Guillamat, Jerome Hardouein, Berta Martinez-Prat, and Jordi Ignes-Mullol: Features of interfaced and confined experimental active nematics
5: Leticia Cugliandolo and Giuseppe Gonnella: Phases of planar active matter
6: Michael E. Cates: Active Field Theories
Part 2: Passive & active colloidal systems
7: Celia Lozano, Tobias Baeuerle, and Clemens Bechinger: "Active brownian particles with programmable interaction rules"
8: Ramin Golestanian: Phoretic Active Matter
9: Thorsten Brazda, Xin Cao, and Clemens Bechinger: Nanotribology of Commensurate and Incommensurate Colloidal Monolayers on Periodic Surfaces
Part 3: From biophysics to active matter
10: Jean-Francois and Joanny Louis Brezin: Tissues as active materials
11: Erwin Frey and Fridtjof Brauns: Self-organisation of protein patterns
12: Eric R. Dufresne: Active materials: Biological benchmarks and transport limitations
Part 4: Non-equilibrium statistical physics, from passive to active
13: Daan Frenkel: Modelling the microscopic origins of active transport
14: Mehran Kardar: Fluctuation Induced Forces in and out of Equilibrium
15: Ludovic Berthier and Jorge Kurchan: Active glassy materials
16: Ydan Ben Dor, Yariv Kafri, and Julien Tailleur: Forces in dry active matter
17: Suzanne M. Fielding: Rheology of complex and active fluids
Part 1: Collective behaviours in active-matter systems
1: Hugues Chate and Benoit Mahault: Dry, aligning, dilute, active matter: A synthetic and self-contained overview
2: John Toner: Why walking is easier than pointing: Hydrodynamics of dry active matter
3: Olivier Dauchot: Collective Motion in Active Materials: Model Experiments
4: Francesc Sagues, Pau Guillamat, Jerome Hardouein, Berta Martinez-Prat, and Jordi Ignes-Mullol: Features of interfaced and confined experimental active nematics
5: Leticia Cugliandolo and Giuseppe Gonnella: Phases of planar active matter
6: Michael E. Cates: Active Field Theories
Part 2: Passive & active colloidal systems
7: Celia Lozano, Tobias Baeuerle, and Clemens Bechinger: "Active brownian particles with programmable interaction rules"
8: Ramin Golestanian: Phoretic Active Matter
9: Thorsten Brazda, Xin Cao, and Clemens Bechinger: Nanotribology of Commensurate and Incommensurate Colloidal Monolayers on Periodic Surfaces
Part 3: From biophysics to active matter
10: Jean-Francois and Joanny Louis Brezin: Tissues as active materials
11: Erwin Frey and Fridtjof Brauns: Self-organisation of protein patterns
12: Eric R. Dufresne: Active materials: Biological benchmarks and transport limitations
Part 4: Non-equilibrium statistical physics, from passive to active
13: Daan Frenkel: Modelling the microscopic origins of active transport
14: Mehran Kardar: Fluctuation Induced Forces in and out of Equilibrium
15: Ludovic Berthier and Jorge Kurchan: Active glassy materials
16: Ydan Ben Dor, Yariv Kafri, and Julien Tailleur: Forces in dry active matter
17: Suzanne M. Fielding: Rheology of complex and active fluids
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
