04123nam 22007095 450 991029858160332120230810193112.03-319-72706-010.1007/978-3-319-72706-6(CKB)4100000005323590(DE-He213)978-3-319-72706-6(MiAaPQ)EBC5471938(PPN)229503640(EXLCZ)99410000000532359020180720d2018 u| 0engurnn|008mamaatxtrdacontentcrdamediacrrdacarrierThe Scaling of Relaxation Processes /edited by Friedrich Kremer, Alois Loidl1st ed. 2018.Cham :Springer International Publishing :Imprint: Springer,2018.1 online resource (VIII, 409 p. 212 illus., 175 illus. in color.) Advances in Dielectrics,2190-93183-319-72705-2 The scaling of relaxation processes – revisited -- Glassy dynamics from mHz to THz -- The dynamic glass transition as reflected in it´s inter-molecular dynamics and intra-molecular mobility -- The scaling of the molecular dynamics of liquid crystals as reveled by dipoles, neutrons and specific heat -- Dipolar correlations across the time-scales: A Molecular Dynamics investigation -- Linear viscoelasticity of nanocomposites: molecular dynamics simulations of polymer mechanics using LAOS and probe rheology techniques -- Dynamic heterogeneity in binary glass formers -- Dynamics of Debye liquids -- Universality of density scaling -- The calorimetric glass transition in a wide range of frequency and cooling rate -- Neutrons, Dipoles and Glass Forming Dynamics: What can we learn by comparing neutron scattering and dielectric spectroscopy results? -- Dielectric spectroscopy and dynamic light scattering: two perspectives on molecular reorientation.The dielectric properties especially of glassy materials are nowadays explored at widely varying temperatures and pressures without any gap in the spectral range from µHz up to the Infrared, thus covering typically 20 decades or more. This extraordinary span enables to trace the scaling and the mutual interactions of relaxation processes in detail, e.g. the dynamic glass transition and secondary relaxations, but as well far infrared vibrations, like the Boson peak. Additionally the evolution of intra-molecular interactions in the course of the dynamic glass transition is also well explored by (Fourier Transform) Infrared Spectroscopy. This volume within 'Advances in Dielectrics' summarizes this knowledge and discusses it with respect to the existing and often competing theoretical concepts.Advances in Dielectrics,2190-9318Spectrum analysisAtomic structure Molecular structureMaterialsAnalysisPolymersMathematical physicsPhysical chemistrySpectroscopyAtomic and Molecular Structure and PropertiesCharacterization and Analytical TechniquePolymersTheoretical, Mathematical and Computational PhysicsPhysical ChemistrySpectrum analysis.Atomic structure .Molecular structure.MaterialsAnalysis.Polymers.Mathematical physics.Physical chemistry.Spectroscopy.Atomic and Molecular Structure and Properties.Characterization and Analytical Technique.Polymers.Theoretical, Mathematical and Computational Physics.Physical Chemistry.543.2-543.8Kremer Friedrichedthttp://id.loc.gov/vocabulary/relators/edtLoidl Aloisedthttp://id.loc.gov/vocabulary/relators/edtBOOK9910298581603321Scaling of Relaxation Processes1566693UNINA