V2O5-P2O5 glass and its polaron transport properties derived from molecular dynamic simulations of structure

Proceedings of SPIE - The International Society for Optical Engineering

Volumn 3181, Issue , 1997, Pages 136-141

  Murawski, L ^a   Barczynski R J ^a   Rybicka, A ^a  

^a GDANSK UNIVERSITY OF TECHNOLOGY   (Poland)

Author keywords

Dielectric properties; Electronic conductivity; Glasses containing transition metal ions; Hopping; Molecular dynamics

Indexed keywords

ATOMIC PHYSICS; ATOMS; CERAMIC CAPACITORS; DIELECTRIC MATERIALS; DIELECTRIC PROPERTIES; DYNAMIC RESPONSE; DYNAMICS; FREQUENCY RESPONSE; FUNCTIONS; GLASS; GLASS TRANSITION; IONS; MATERIALS PROPERTIES; METAL IONS; MOLECULAR DYNAMICS; POLARONS; QUANTUM CHEMISTRY; SEMICONDUCTING GLASS; SPECTROMETRY; TRACE ANALYSIS; TRANSITION METALS; TRANSPORT PROPERTIES; VANADIUM; VANADIUM ALLOYS;

AC CONDUCTIVITIES; BODY POTENTIALS; COULOMB FORCES; DC CONDUCTIVITIES; ELECTRONIC CONDUCTIVITY; FUNCTION DECAYS; FUNCTION OF FREQUENCIES; GLASSES CONTAINING TRANSITION METAL IONS; HIGH FREQUENCIES; HOPPING; IONIC CHARGES; MD SIMULATIONS; MOLECULAR DYNAMIC SIMULATIONS; PARAMETRIZATION; POLARON HOPPING; POWER LAWS; REPULSIVE FORCES; SIMULATION RESULTS; VANADIUM ATOMS; VANADIUM IONS;

TRANSITION METAL COMPOUNDS;

EID: 0012744101     PISSN: 0277786X     EISSN: None     Source Type: Conference Proceeding    
DOI: 10.1117/12.276267     Document Type: Conference Paper

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