Add to ORKGWe present a study of transport, thermal, and optical properties of stoichiometric CaB6 and La-doped CaB6. For stoichiometric CaB6 a strong increase of the resistivity with decreasing temperature and anomalies in the low-temperature behavior of the resistivity and the specific heat have been observed. The application of an external magnetic field at low temperatures is shown to lead to an anomalous magnetoresistance in the case of stoichiometric CaB6. The optical conductivity, exhibits a strong doping dependence. Rather unexpectedly, small changes in the chemical composition lead to significant changes in the electronic interband transitions in the visible-UV spectral range. The relevance of our results with respect to the recently suggeste...
Replacing U for Ca in semiconducting CaB6 at a few atomic percent level induces metallic behavior an...
We investigate the temperature evolution of the electronic structure of ferromagnetic CaB6 using ult...
The Zintl compound Ca_5Al_2Sb_6 has extremely low lattice thermal conductivity (<0.6 W/mK at 1000 K)...
By substituting Ca for Eu in EuB6, a local-moment ferromagnet, the transition temperature of 16 K fo...
We report results from a systematic electron-transport study in a broad temperature range on 12 CaB6...
The electrical resistivity and Hall effect of alkaline-earth-metal hexaboride single crystals are me...
Ferromagnetism was recently observed at unexpectedly high temperatures in La-doped CaB6. The startin...
Ferromagnetism was recently observed at unexpectedly high temperatures in La-doped CaB6. The startin...
We report the results of 11B-NMR measurements on CaB6. In an attempt to prepare a material with chem...
International audienceSingle crystals of pure and carbon‐substituted divalent hexaborides EuB6 and Y...
Great interest in the divalent hexaborides has been generated recently by the discovery of high Curi...
We present a theoretical study of crystal and electronic structures of CaB6 within a screened-excha...
Nanocrystalline Ca-doped CeB6 powders have been synthesized via a solid-state reaction of CaO and Ce...
The co-substituted Ca1�xLnxMn1�xNbxO3 (Ln = Yb, Lu; 0.02 � x � 0.08) are synthesized by solid-state ...
The co-substituted Ca1−xLnxMn1−xNbxO3 (Ln = Yb, Lu; 0.02 ≤ x ≤ 0.08) are synthesized by solid-state ...
Replacing U for Ca in semiconducting CaB6 at a few atomic percent level induces metallic behavior an...
We investigate the temperature evolution of the electronic structure of ferromagnetic CaB6 using ult...
The Zintl compound Ca_5Al_2Sb_6 has extremely low lattice thermal conductivity (<0.6 W/mK at 1000 K)...
By substituting Ca for Eu in EuB6, a local-moment ferromagnet, the transition temperature of 16 K fo...
We report results from a systematic electron-transport study in a broad temperature range on 12 CaB6...
The electrical resistivity and Hall effect of alkaline-earth-metal hexaboride single crystals are me...
Ferromagnetism was recently observed at unexpectedly high temperatures in La-doped CaB6. The startin...
Ferromagnetism was recently observed at unexpectedly high temperatures in La-doped CaB6. The startin...
We report the results of 11B-NMR measurements on CaB6. In an attempt to prepare a material with chem...
International audienceSingle crystals of pure and carbon‐substituted divalent hexaborides EuB6 and Y...
Great interest in the divalent hexaborides has been generated recently by the discovery of high Curi...
We present a theoretical study of crystal and electronic structures of CaB6 within a screened-excha...
Nanocrystalline Ca-doped CeB6 powders have been synthesized via a solid-state reaction of CaO and Ce...
The co-substituted Ca1�xLnxMn1�xNbxO3 (Ln = Yb, Lu; 0.02 � x � 0.08) are synthesized by solid-state ...
The co-substituted Ca1−xLnxMn1−xNbxO3 (Ln = Yb, Lu; 0.02 ≤ x ≤ 0.08) are synthesized by solid-state ...
Replacing U for Ca in semiconducting CaB6 at a few atomic percent level induces metallic behavior an...
We investigate the temperature evolution of the electronic structure of ferromagnetic CaB6 using ult...
The Zintl compound Ca_5Al_2Sb_6 has extremely low lattice thermal conductivity (<0.6 W/mK at 1000 K)...