Superionic conductors: Transitions, structures, dynamics

Superionic conductors: Transitions, structures, dynamics. Boyce, J. B. & Huberman, B. A. Physics Reports, 51(4):189–265, April, 1979.

Paper doi abstract bibtex

We outline the physics of superionic conductors with emphasis on the new insights that the research of the past few years has brought about. Section 2 deals with the basic facts pertinent to superionic conductors, i.e., their large conductivities, their liquid-like aspects and their phase transitions. Section 3 contains a description of their structural properties and the relationships of the structure to high ionic conductivities. Section 4 describes the excitation spectrum of superionic conductors, including phonon-charge carrier interactions. In section 5 we study the excitations in the strong coupling limit and their critical dynamics near phase transitions, along with their implications for light scattering and ultrasonic experiments. The final section (6) contains a through description of ion dynamics as seen through NMR techniques.

@article{boyce_superionic_1979,
	title = {Superionic conductors: {Transitions}, structures, dynamics},
	volume = {51},
	issn = {0370-1573},
	shorttitle = {Superionic conductors},
	url = {https://www.sciencedirect.com/science/article/pii/037015737990067X},
	doi = {10.1016/0370-1573(79)90067-X},
	abstract = {We outline the physics of superionic conductors with emphasis on the new insights that the research of the past few years has brought about. Section 2 deals with the basic facts pertinent to superionic conductors, i.e., their large conductivities, their liquid-like aspects and their phase transitions. Section 3 contains a description of their structural properties and the relationships of the structure to high ionic conductivities. Section 4 describes the excitation spectrum of superionic conductors, including phonon-charge carrier interactions. In section 5 we study the excitations in the strong coupling limit and their critical dynamics near phase transitions, along with their implications for light scattering and ultrasonic experiments. The final section (6) contains a through description of ion dynamics as seen through NMR techniques.},
	language = {en},
	number = {4},
	urldate = {2022-02-07},
	journal = {Physics Reports},
	author = {Boyce, J. B. and Huberman, B. A.},
	month = apr,
	year = {1979},
	pages = {189--265},
}

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