Superconductivity of various borides: The role of stretched c -parameter

Monika Mudgel; V. P.S. Awana; H. Kishan; I. Felner; G. A. Alvarez; G. L. Bhalla

doi:10.1063/1.3072719

Superconductivity of various borides: The role of stretched c -parameter

Monika Mudgel, V. P.S. Awana, H. Kishan, I. Felner, G. A. Alvarez, G. L. Bhalla

Racah Institute of Physics

Research output: Contribution to journal › Article › peer-review

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Abstract

The superconductivity of MgB2, AlB2, NbB2+x, and TaB2+x is intercompared. The stretched c -lattice parameter (c=3.52 Å) of MgB2 in comparison to NbB2.4 (c=3.32 Å) and AlB2 (c=3.25 Å) decides empirically the population of their π and bands and as a result their transition temperature Tc values, respectively, at 39 and 9.5 K for the first two and no superconductivity for the later. The nonstoichiometry induces an increase in c parameter with Boron excess both in NbB2+x and TaB2+x. Magnetization (M-T) and resistivity measurements (ρ -T) in case of niobium boride samples show the absence of superconductivity in stoichiometric NbB2 sample (c=3.26 Å) while a clear diamagnetic signal and a ρ =0 transition for boron excess NbB2+x samples. On the other hand, superconductivity is not achieved in TaB2+x case. The probable reason behind is the comparatively lesser or insufficient stretching of c parameter.

Original language	English
Article number	07E313
Journal	Journal of Applied Physics
Volume	105
Issue number	7
DOIs	https://doi.org/10.1063/1.3072719
State	Published - 2009

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title = "Superconductivity of various borides: The role of stretched c -parameter",

abstract = "The superconductivity of MgB2, AlB2, NbB2+x, and TaB2+x is intercompared. The stretched c -lattice parameter (c=3.52 {\AA}) of MgB2 in comparison to NbB2.4 (c=3.32 {\AA}) and AlB2 (c=3.25 {\AA}) decides empirically the population of their π and bands and as a result their transition temperature Tc values, respectively, at 39 and 9.5 K for the first two and no superconductivity for the later. The nonstoichiometry induces an increase in c parameter with Boron excess both in NbB2+x and TaB2+x. Magnetization (M-T) and resistivity measurements (ρ -T) in case of niobium boride samples show the absence of superconductivity in stoichiometric NbB2 sample (c=3.26 {\AA}) while a clear diamagnetic signal and a ρ =0 transition for boron excess NbB2+x samples. On the other hand, superconductivity is not achieved in TaB2+x case. The probable reason behind is the comparatively lesser or insufficient stretching of c parameter.",

author = "Monika Mudgel and Awana, {V. P.S.} and H. Kishan and I. Felner and Alvarez, {G. A.} and Bhalla, {G. L.}",

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doi = "10.1063/1.3072719",

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T2 - The role of stretched c -parameter

AU - Mudgel, Monika

AU - Awana, V. P.S.

AU - Kishan, H.

AU - Felner, I.

AU - Alvarez, G. A.

AU - Bhalla, G. L.

PY - 2009

Y1 - 2009

N2 - The superconductivity of MgB2, AlB2, NbB2+x, and TaB2+x is intercompared. The stretched c -lattice parameter (c=3.52 Å) of MgB2 in comparison to NbB2.4 (c=3.32 Å) and AlB2 (c=3.25 Å) decides empirically the population of their π and bands and as a result their transition temperature Tc values, respectively, at 39 and 9.5 K for the first two and no superconductivity for the later. The nonstoichiometry induces an increase in c parameter with Boron excess both in NbB2+x and TaB2+x. Magnetization (M-T) and resistivity measurements (ρ -T) in case of niobium boride samples show the absence of superconductivity in stoichiometric NbB2 sample (c=3.26 Å) while a clear diamagnetic signal and a ρ =0 transition for boron excess NbB2+x samples. On the other hand, superconductivity is not achieved in TaB2+x case. The probable reason behind is the comparatively lesser or insufficient stretching of c parameter.

AB - The superconductivity of MgB2, AlB2, NbB2+x, and TaB2+x is intercompared. The stretched c -lattice parameter (c=3.52 Å) of MgB2 in comparison to NbB2.4 (c=3.32 Å) and AlB2 (c=3.25 Å) decides empirically the population of their π and bands and as a result their transition temperature Tc values, respectively, at 39 and 9.5 K for the first two and no superconductivity for the later. The nonstoichiometry induces an increase in c parameter with Boron excess both in NbB2+x and TaB2+x. Magnetization (M-T) and resistivity measurements (ρ -T) in case of niobium boride samples show the absence of superconductivity in stoichiometric NbB2 sample (c=3.26 Å) while a clear diamagnetic signal and a ρ =0 transition for boron excess NbB2+x samples. On the other hand, superconductivity is not achieved in TaB2+x case. The probable reason behind is the comparatively lesser or insufficient stretching of c parameter.

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Superconductivity of various borides: The role of stretched c -parameter

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