M. M. Abd-Elmeguid scite author profile

The crystal structures of the tetrahedral cluster compounds GaNb(4)S(8) and GaTa(4)Se(8) were determined by single-crystal X-ray diffraction. They crystallize in the cubic GaMo(4)S(8) structure type (F3m), which can be derived from the spinel type by shifting the metal atoms off the centers of the chalcogen octahedra along [111]. Electrical resistivity and magnetic susceptibility measurements show that the electronic conduction originates from hopping of localized unpaired electrons (S = (1)/(2)) among widely separated Nb(4) or Ta(4) clusters, and thus these materials represent a new class of Mott insulators. Under high pressure we find that GaNb(4)S(8) undergoes a transition from the Mott insulating to a superconducting state with T(C) up to 4 K at 23 GPa, similar to GaNb(4)Se(8) and GaTa(4)Se(8). High-pressure single-crystal X-ray studies of GaTa(4)Se(8) reveal that the superconducting transition is connected with a gradual decrease of the octahedral distortion with increasing pressure. DFT band structure calculations show that weakly coupled cluster orbitals are responsible for a high density of states at the Fermi level. The correct insulating magnetic ground state for GaNb(4)S(8) with mu(eff) = 1.73 mu(B) is for the first time achieved by the LDA+U method using U = 6 eV and rhombohedral symmetry.

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Transition from Mott Insulator to Superconductor inGaNb4Se8and
Abd-Elmeguid
¹
,
Ni
²
,
Khomskii
³

et al. 2004
Phys. Rev. Lett.
125
7
104
2
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Electronic conduction in GaM4Se8 (M=Nb,Ta) compounds with the fcc GaMo4S8-type structure originates from hopping of localized unpaired electrons (S=1 / 2) among widely separated tetrahedral M4 metal clusters. We show that under pressure these systems transform from Mott insulators to a metallic and superconducting state with T(C)=2.9 and 5.8 K at 13 and 11.5 GPa for GaNb4Se8 and GaTa4Se8, respectively. The occurrence of superconductivity is shown to be connected with a pressure-induced decrease of the MSe6 octahedral distortion and simultaneous softening of the phonon associated with M-Se bonds.

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High-pressure diffraction studies onCa2RuO4

et al. 2005

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We studied the crystal and magnetic structure of Ca2RuO4 by different diffraction techniques under high pressure. The observed first order phase transition at moderate pressure (0.5 GPa) between the insulating phase and the metallic high pressure phase is characterized by a broad region of phase coexistence. The following structural changes are observed as function of pressure: a) a discontinuous change of both the tilt and rotation angle of the RuO6-Octahedra at this transition, b) a gradual decrease of the tilt angle in the high pressure phase (p>0.5 GPa) and c) the disappearance of the tilt above 5.5GPa leading to a higher symmetry structure. By single crystal neutron diffraction at low temperature, the ferromagnetic component of the high pressure phase and a rearrangement of antiferromagnetic order in the low pressure phase was observed.

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High-Pressure Ground State ofSmB6: Electronic Conduction and Long Range Magnetic Order

et al. 2005

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High-pressure 149Sm nuclear forward scattering of synchrotron radiation and specific heat measurements have been performed on the intermediate valent Kondo insulator SmB6. The results show that at a critical pressure p(c) approximately = 6 GPa, where the charge gap closes, a first order transition occurs to a magnetically ordered state, which shows typical features of trivalent samarium compounds. The similarity with SmS stresses the role of local correlations and gives important insight into the debate on the local or itinerant character of the f electrons in heavy fermion systems.

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M. M. Abd-Elmeguid

Crystal Structures, Electronic Properties, and Pressure-Induced Superconductivity of the Tetrahedral Cluster Compounds GaNb₄S₈, GaNb₄Se₈, and GaTa₄Se₈

Transition from Mott Insulator to Superconductor inGaNb4Se8and
Abd-Elmeguid
¹
,
Ni
²
,
Khomskii
³

et al. 2004
Phys. Rev. Lett.
125
7
104
2
View full text Add to dashboard Cite

High-pressure diffraction studies onCa2RuO4

High-Pressure Ground State ofSmB6: Electronic Conduction and Long Range Magnetic Order

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M. M. Abd-Elmeguid

Crystal Structures, Electronic Properties, and Pressure-Induced Superconductivity of the Tetrahedral Cluster Compounds GaNb4S8, GaNb4Se8, and GaTa4Se8

Transition from Mott Insulator to Superconductor inGaNb4Se8andAbd-Elmeguid1, Ni2, Khomskii3 et al. 2004Phys. Rev. Lett.12571042View full textAdd to dashboardCite

High-pressure diffraction studies onCa2RuO4

High-Pressure Ground State ofSmB6: Electronic Conduction and Long Range Magnetic Order

Contact Info

Product

Resources

About

Crystal Structures, Electronic Properties, and Pressure-Induced Superconductivity of the Tetrahedral Cluster Compounds GaNb₄S₈, GaNb₄Se₈, and GaTa₄Se₈

Transition from Mott Insulator to Superconductor inGaNb4Se8and
Abd-Elmeguid
¹
,
Ni
²
,
Khomskii
³

et al. 2004
Phys. Rev. Lett.
125
7
104
2
View full text Add to dashboard Cite