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Dissipative, Entropy-Production Systems across Condensed Matter and Interdisciplinary Classical VS. Quantum Physics

Dissipative, Entropy-Production Systems across Condensed Matter and Interdisciplinary Classical VS. Quantum Physics

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The thematic range of this book is wide and can loosely be described as polydispersive. Figuratively, it resembles a polynuclear path of yielding (poly)crystals. Such path can be taken when looking at it from the first side. However, a closer inspection of the book’s contents gives rise to a much more monodispersive/single-crystal and compacted (than crudely expected) picture of the book’s contents presented to a potential reader. Namely, all contributions collected can be united under the common denominator of maximum-entropy and entropy production principles experienced by both classical and quantum systems in (non)equilibrium conditions. The proposed order of presenting the material commences with properly subordinated classical systems (seven contributions) and ends up with three remaining quantum systems, presented by the chapters’ authors. The overarching editorial makes the presentation of the wide-range material self-contained and compact, irrespective of whether comprehending it from classical or quantum physical viewpoints.

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Keywords

  • (poly)crystal formation
  • active particles
  • anticoherence
  • Brownian motion
  • Carnot principle
  • chemical computing
  • Clausius I and II principles
  • coherence
  • compartmental models
  • complex growing phenomenon
  • Computer simulation
  • Concurrence
  • conformational entropy
  • dihedral angles
  • dissipative structures
  • entanglement
  • entropy production
  • epidemy
  • ergodicity
  • Euler characteristic
  • formal implication
  • frequency distribution
  • human serum albumin
  • hyaluronan
  • II law of thermodynamics
  • Japanese flag problem
  • Kelvin principle
  • Lévy noise
  • linear entropy
  • Mathematics & science
  • microwave networks
  • Model theory
  • multistability
  • n/a
  • network
  • Neumann and Dirichlet boundary conditions
  • Nonequilibrium thermodynamics
  • Nonlinear systems
  • Oregonator model
  • oscillators
  • Ostwald principle
  • perpetuum mobile type III
  • physical kinetics
  • Physics
  • purity of states
  • quantum entanglement
  • quantum graphs
  • Reference, information & interdisciplinary subjects
  • Research & information: general
  • SARS-CoV-2-like disease spreading
  • Soft condensed matter
  • spherulites
  • three-qubit systems
  • tilted periodic potential
  • top-down design

Links

DOI: 10.3390/books978-3-0365-5276-7

Editions

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