Add to ORKGBasic thermodynamic and transport properties of Ce3Bi4Pt3 are reviewed. Although the susceptibility displays a canonical mixed valence temperature dependence, the electrical resistance, thermoelectric power and specific heat are those associated with a small gap semiconductor in which the gap is due to hybridization of the renormalized f and conduction electrons. In addition to this, a surprising correlation between the magnetic susceptibility and the thermal expansion as well as a simple theoretical framework within which hybridization-gapped systems can be viewed are presented. © 1992
The magnetic, thermal, and transport properties of single crystals of the narrow gap semiconductor C...
We have studied the electronic structure as well as magnetic, electronic transport and thermodynamic...
The magnetoresistance (MR) of the narrow-gap Kondo insulator Ce3Bi4Pt3 and its non-magnetic analog L...
We present resistivity (T), susceptibility (T), and specific heat C(T) data for Ce3Bi4Pt3. The susce...
We present an analysis of transport data from Ce3Bi4Pt3 to deteermine the energy gap temperature dep...
We report measurements of the temperature dependence of the Bi209 nuclear quadrupole resonance frequ...
Ce3Bi4Pt3 is a cerium compound that exhibits a hybridization gap and concomitant semiconducting beha...
Static-susceptibility and thermal-expansion measurements indicate that Ce3Bi4Pt3 is mixed-valent-lik...
Doping studies are presented on three materials exhibiting hybridization gaps: Ce3Bi4Pt3, U3Sb4Pt3 a...
Ce3Bi4Pt3 is a mixed valence compound with a gap in its electronic excitation spectrum. An Arrhenius...
The strongly correlated electron systems have attracted considerable interest due to its variety of ...
Ce3Bi4Au3 crystallizes in the same noncentrosymmetric cubic structure as the prototypical Kondo insu...
We report on the magnetic, transport, and thermal properties of a cage-like compound CeFe2Al10 that ...
Des mesures de résistance électrique, de chaleur spécifique électronique et de pouvoir thermoélectri...
The Kondo Lattice Model (KLM) is one of the most important models for studying heavy fermion (HF) sy...
The magnetic, thermal, and transport properties of single crystals of the narrow gap semiconductor C...
We have studied the electronic structure as well as magnetic, electronic transport and thermodynamic...
The magnetoresistance (MR) of the narrow-gap Kondo insulator Ce3Bi4Pt3 and its non-magnetic analog L...
We present resistivity (T), susceptibility (T), and specific heat C(T) data for Ce3Bi4Pt3. The susce...
We present an analysis of transport data from Ce3Bi4Pt3 to deteermine the energy gap temperature dep...
We report measurements of the temperature dependence of the Bi209 nuclear quadrupole resonance frequ...
Ce3Bi4Pt3 is a cerium compound that exhibits a hybridization gap and concomitant semiconducting beha...
Static-susceptibility and thermal-expansion measurements indicate that Ce3Bi4Pt3 is mixed-valent-lik...
Doping studies are presented on three materials exhibiting hybridization gaps: Ce3Bi4Pt3, U3Sb4Pt3 a...
Ce3Bi4Pt3 is a mixed valence compound with a gap in its electronic excitation spectrum. An Arrhenius...
The strongly correlated electron systems have attracted considerable interest due to its variety of ...
Ce3Bi4Au3 crystallizes in the same noncentrosymmetric cubic structure as the prototypical Kondo insu...
We report on the magnetic, transport, and thermal properties of a cage-like compound CeFe2Al10 that ...
Des mesures de résistance électrique, de chaleur spécifique électronique et de pouvoir thermoélectri...
The Kondo Lattice Model (KLM) is one of the most important models for studying heavy fermion (HF) sy...
The magnetic, thermal, and transport properties of single crystals of the narrow gap semiconductor C...
We have studied the electronic structure as well as magnetic, electronic transport and thermodynamic...
The magnetoresistance (MR) of the narrow-gap Kondo insulator Ce3Bi4Pt3 and its non-magnetic analog L...