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Q-dependent collective relaxation dynamics of glass-forming liquid Ca0.4K0.6(NO3)1.4 investigated by wide-angle neutron spin-echo

P. Luo, Yanqin Zhai, Péter Falus, Victoria García Sakai, Monika Hartl, Maiko Kofu, Kenji Nakajima, Antonio Faraone, Yang Zhang

2022Nature Communications20 citationsDOIOpen Access PDF

Abstract

Abstract The relaxation behavior of glass formers exhibits spatial heterogeneity and dramatically changes upon cooling towards the glass transition. However, the underlying mechanisms of the dynamics at different microscopic length scales are not fully understood. Employing the recently developed wide-angle neutron spin-echo spectroscopy technique, we measured the Q -dependent coherent intermediate scattering function of a prototypical ionic glass former Ca 0.4 K 0.6 (NO 3 ) 1.4 , in the highly viscous liquid state. In contrast to the structure modulated dynamics for Q < 2.4 Å −1 , i.e., at and below the structure factor main peak, for Q > 2.4 Å −1 , beyond the first minimum above the structure factor main peak, the stretching exponent exhibits no temperature dependence and concomitantly the relaxation time shows smaller deviations from Arrhenius behavior. This finding indicates a change in the dominant relaxation mechanisms around a characteristic length of 2π/(2.4 Å −1 ) ≈ 2.6 Å, below which the relaxation process exhibits a temperature independent distribution and more Arrhenius-like behavior.

Topics & Concepts

Neutron spin echoRelaxation (psychology)Dynamics (music)NeutronEcho (communications protocol)Nuclear magnetic resonanceMaterials scienceSpin (aerodynamics)Chemical physicsFast spin echoCondensed matter physicsMolecular physicsPhysicsNuclear physicsNeutron scatteringMagnetic resonance imagingComputer scienceInelastic neutron scatteringAcousticsThermodynamicsRadiologySocial psychologyMedicineComputer networkPsychologyMaterial Dynamics and PropertiesGlass properties and applicationsSolid-state spectroscopy and crystallography
Q-dependent collective relaxation dynamics of glass-forming liquid Ca0.4K0.6(NO3)1.4 investigated by wide-angle neutron spin-echo | Litcius