M
M. B. Maple
Researcher at University of California, San Diego
Publications - 960
Citations - 27507
M. B. Maple is an academic researcher from University of California, San Diego. The author has contributed to research in topics: Superconductivity & Magnetic susceptibility. The author has an hindex of 78, co-authored 953 publications receiving 26338 citations. Previous affiliations of M. B. Maple include Chiba University & Ohio State University.
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Journal ArticleDOI
Improved superconducting properties of MgB2
TL;DR: In this article, electrical transport, magnetization, and specific heat measurements on bulk magnesium diboride (MgB 2 ) samples were performed using a process based on hot isostatic pressing with cooling under pressure.
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Nuclear Magnetic Resonance Study of the Heavy-Fermion System URu2Si2
TL;DR: In this article, the p-wave superconductivity has been proposed as a possible explanation of the anomalous behavior in heavy-fermion superconductors (HFS) by many works.
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Evidence for scaling invariance and universality of the irreversibility line of high temperature superconductors.
Carmen Almasan,Carmen Almasan,Carmen Almasan,M. C. de Andrade,M. C. de Andrade,M. C. de Andrade,Y. Dalichaouch,Y. Dalichaouch,Y. Dalichaouch,J. J. Neumeier,J. J. Neumeier,J. J. Neumeier,C. L. Seaman,C. L. Seaman,C. L. Seaman,M. B. Maple,M. B. Maple,M. B. Maple,R. P. Guertin,R. P. Guertin,R. P. Guertin,M. V. Kuric,M. V. Kuric,M. V. Kuric,J. C. Garland,J. C. Garland,J. C. Garland +26 more
TL;DR: The results suggest that both the crossover phenomenon and the power law temperature dependence are ubiquitous, scale-invariant properties of high temperature superconductors.
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Ferromagnetic instability in the heavy-electron compound URu 2 Si 2 doped with Re or Tc
TL;DR: The first ferromagnetic instability observed in a heavy-electron system is reported and suggests that the ferromagnetism is associated with a narrow feature in the density of states of a band of strongly correlated electrons.
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Oxide formation and reduction over Pt, Pd, and Ir; A driving mechanism for oscillations in the co oxidation reaction☆
J.E. Turner,M. B. Maple +1 more
TL;DR: In this article, a sensitive gravimetric technique has been used to study the kinetics of oxide formation and reduction by CO of Pd and Ir powders between ~ 100 and ~ 600°C.