Projects / Programmes
Nmr and nqr studies of aperiodic structures
Code |
Science |
Field |
Subfield |
1.02.06 |
Natural sciences and mathematics |
Physics |
Experimental physics of elementary particles |
Code |
Science |
Field |
P250 |
Natural sciences and mathematics |
Condensed matter: structure, thermal and mechanical properties, crystallography, phase equilibria |
P260 |
Natural sciences and mathematics |
Condensed matter: electronic structure, electrical, magnetic and optical properties, supraconductors, magnetic resonance, relaxation, spectroscopy |
disordered systems, aperiodic matter, nuclear magnetic and quadrupole resonance, quasicrystals, ferroelectrics, glasses, superionic conductors, nanomagnets, porous media, incommensurate systems
Researchers (21)
Organisations (1)
no. |
Code |
Research organisation |
City |
Registration number |
No. of publicationsNo. of publications |
1. |
0106 |
Jožef Stefan Institute |
Ljubljana |
5051606000 |
90,742 |
Abstract
The aim of the project is a study of physics of superstructures in solids with aperiodic structure like incommensurate systems, superionic conductors, protonic and orientational glasses, quasicrystals, disordered ferroelectrics, spin-ladder cuprates, colossal magnetoresistance systems, nanomagnets and porous media. These systems exhibit qualitatively new physical phenomena that are not present in ordered crystals. Such phenomena are the anomalous ''''phason-assisted'''' diffusion in quasicrystals, nonlinear charge transport in incommensurate charge density wave systems and ionic conductors, single-molecule ferromagnetism in nanoferromagnets, metastable states in glassy structures, etc. The above phenomena are studied by means of magnetic resonance spectroscopy.