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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Oxygen dependence of the magnetic order of Nd in NdBa2Cu3O6+x
TL;DR: In this article, the effects of oxygen on the magnetic order of superconducting NdBa2Cu3O6+x powders were investigated. But the results were limited to a small reduction of oxygen to x=0.78.
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Upper critical magnetic field of the heavy-electron superconductors U1-xThxBe13 (x=0 and 2.9%) doped with paramagnetic Gd and other rare-earth ions.
TL;DR: The results are consistent with either strong spin-orbit scattering due to the presence of Th in UBe{sub 13}, or to a qualitatively different type of superconductivity involving triplet spin pairing in (U{sub 0.97}Th{ sub 0.03})Be{ sub 13}.
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Cu NMR Study of Th-Doped Nd2CuO4-y and Pr2CuO4-y
Yoh Kohori,Toshitaka Sugata,Hironori Takenaka,Takao Kohara,Yoshihiro Yamada,J. T. Markert,M. B. Maple +6 more
TL;DR: In this article, the internal field at Cu is estimated as 103 kOe and the electric quadrupole interaction as ν Q = 14.0 MHz for 63 and 12.9 MHz for 65 Cu.
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From local moment to mixed-valence regime in Ce 1 − x Yb x CoIn 5 alloys
Y. P. Singh,D. J. Haney,X. Y. Huang,I. K. Lum,Benjamin White,Maxim Dzero,M. B. Maple,C. C. Almasan +7 more
TL;DR: In this article, the authors investigated the onset of the many-body coherence in the $f$-orbital single crystalline alloys through thermodynamic and magnetotransport measurements, and observed a crossover from the predominantly localized Ce moment regime to the predominantly itinerant Yb$-electronic states regime for about 60%$ of Yb doping.
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Shock consolidation of crystallographically aligned Bi2Sr2CaCu2O8 powders
TL;DR: In this article, the dependence of this crystallographic alignment as a function of both shock pressure (from 35 kbar to 135 kbar) and powder particle size (from 1.5 to 3.5 µm) was explored.