6533b85bfe1ef96bd12bb70e
RESEARCH PRODUCT
Nature of the non-exponential primary relaxation in structural glass-formers probed by dynamically selective experiments
Roland BöhmerAndreas HeuerGregor DiezemannBurkhard GeilB. SchienerRalph V. ChamberlinHans Wolfgang SpiessHans SillescuS. C. KueblerU. TrachtGerald HinzeRanko RichertManfred Wilhelmsubject
Condensed matter physicsChemistrySolvationCondensed Matter Physics530Measure (mathematics)Electronic Optical and Magnetic MaterialsExponential functionSuperposition principleChemical physicsMaterials ChemistryCeramics and CompositesSpectral hole burningRelaxation (physics)Experimental methodsSpectroscopydescription
Several experimental methods feature the potential to distinguish between slow and fast contributions to the non-exponential, ensemble averaged primary response in glass-forming materials. Some of these techniques are based on the selection of subensembles using multi-dimensional nuclear magnetic resonance, optical bleaching, and non-resonant spectral hole burning. Others, such as the time-dependent solvation spectroscopy, measure microscopic responses induced by local perturbations. Using several of these methods it could be demonstrated for various glass-forming materials that the non-exponential relaxation results from a superposition of dynamically distinguishable entities. The experimental observation that subensembles can be selected efficiently indicates a large degree of heterogeneity. The intrinsic response is compatible with single exponential relaxation.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 1998-08-01 | Journal of Non-Crystalline Solids |