01035nam 22003013 450 991013202010332120160620170941.0(CKB)3400000000018567(ItFiC)it 01627805(EXLCZ)99340000000001856720091204d2001 uy 0itaSegreti personali e segreti di Stato[electronic resource] privacy, archivi e ricerca storica /a cura di Carlo SpagnoloFucecchio (Firenze) European press academic publishing2001189 pQuaderni / SISSCO, Società italiana per lo studio della storia contemporanea ;1Proceedings, Rome, 2000.88-8398-010-7 Includes bibliographical references.Segreti personali e segreti di Stato 342Spagnolo Carlo127330ItFiCItFiCBOOK9910132020103321Segreti personali e segreti di Stato2432550UNINA04028nam 2200949z- 450 991061947000332120231214132925.03-0365-5276-6(CKB)5670000000391574(oapen)https://directory.doabooks.org/handle/20.500.12854/93223(EXLCZ)99567000000039157420202210d2022 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierDissipative, Entropy-Production Systems across Condensed Matter and Interdisciplinary Classical VS. Quantum PhysicsMDPI - Multidisciplinary Digital Publishing Institute20221 electronic resource (176 p.)3-0365-5275-8 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.Research & information: generalbicsscPhysicsbicsscmultistabilityergodicityBrownian motiontilted periodic potentialLévy noisenonequilibrium thermodynamicsactive particlesentropy productiondissipative structuresquantum entanglementlinear entropycoherencepurity of statesconcurrencethree-qubit systemsquantum graphsmicrowave networksEuler characteristicNeumann and Dirichlet boundary conditionsII law of thermodynamicsCarnot principleKelvin principleOstwald principleperpetuum mobile type IIIClausius I and II principlesformal implicationmodel theoryspherulites(poly)crystal formationcomplex growing phenomenonsoft condensed matterphysical kineticsanticoherenceentanglementnonlinear systemshuman serum albuminhyaluronanconformational entropydihedral anglesfrequency distributionepidemycompartmental modelscomputer simulationSARS-CoV-2-like disease spreadingchemical computingnetworkoscillatorstop-down designOregonator modelJapanese flag problemResearch & information: generalPhysicsGadomski Adamedt314513Gadomski AdamothBOOK9910619470003321Dissipative, Entropy-Production Systems across Condensed Matter and Interdisciplinary Classical VS. Quantum Physics3039282UNINA