Mark G. Blamire is affiliated with the University of Cambridge in the United Kingdom. Their research spans the fields of Physics and Astronomy as well as Materials Science, with a focus on condensed matter physics and related subfields.
The scientist's work includes detailed studies in subfields such as Condensed Matter Physics, Atomic and Molecular Physics and Optics, Electronic, Optical and Magnetic Materials, Materials Chemistry, and touches on aspects of General Health Professions.
Their primary topics of research cover Physics of Superconductivity and Magnetism, Magnetic properties of thin films, Quantum and electron transport phenomena, and Magnetic and transport properties of perovskites and related materials. Additional topics include research into Iron-based superconductors, Advanced Condensed Matter Physics, and Surface and Thin Film Phenomena.
Mark G. Blamire's recent publications illustrate these research interests with works such as Tunable pure spin supercurrents and the demonstration of their gateability in a spin-wave device published in 2020 in Apollo (University of Cambridge), Coexistence and tuning of spin-singlet and triplet transport in spin-filter Josephson junctions from 2022 in Communications Physics, and Spin-orbit coupling suppression and singlet-state blocking of spin-triplet Cooper pairs in 2021 featured in Science Advances. Other notable papers include Pair suppression caused by mosaic-twist defects in superconducting Sr2RuO4 thin-films prepared using pulsed laser deposition published in 2020 in Communications Materials, and Controlling spin pumping into superconducting Nb by proximity-induced spin-triplet Cooper pairs in 2023 in Communications Physics.
The frequent coauthors collaborate extensively with Mark G. Blamire, including Sachio Komori, Jason W. A. Robinson, X. Montiel, H. Kurebayashi, and L. F. Cohen. These collaborations point to sustained research partnerships in their fields of study.
Common publication venues for their work include arXiv (Cornell University), Apollo (University of Cambridge), Communications Physics, Advanced Electronic Materials, and the Journal of Superconductivity and Novel Magnetism. These journals reflect the focus on advanced materials and condensed matter physics topics in their scientific output.
Xiaoding Qi;Joonghoe Dho;Rumen Tomov;Mark G. Blamire
W. Eerenstein;F. D. Morrison;J. Dho;M. G. Blamire
J. W. A. Robinson;J. D. S. Witt;M. G. Blamire
N. D. Mathur;G. Burnell;S. P. Isaac;T. J. Jackson
Joonghoe Dho;Xiao-Ding Qi;Hyunho Kim;Hyunho Kim;Judith L. MacManus-Driscoll
Judith L. MacManus-Driscoll;Patrick Zerrer;Haiyan Wang;Hao Yang
Kelvin H L Zhang;Kai Xi;Mark G Blamire;Russell G Egdell
Carmona Ha;Geim Ak;Nogaret A;Main Pc
D.J Larson;D.T Foord;A.K Petford-Long;H Liew
J. W. A. Robinson;S. Piano;S. Piano;G. Burnell;C. Bell
Neeraj Khare;Neeraj Khare;Menno J. Kappers;Ming Wei;Mark G. Blamire
Kartik Senapati;Kartik Senapati;Mark G. Blamire;Zoe H. Barber
J. E. Evetts;M. G. Blamire;N. D. Mathur;S. P. Isaac
Moon-Ho Jo;N. D. Mathur;N. K. Todd;M. G. Blamire
S. Anders;M.G. Blamire;F.-Im. Buchholz;D.-G. Crété
S. P. Isaac;N. D. Mathur;J. E. Evetts;M. G. Blamire
M G Blamire;J W A Robinson
M. Wei;N. Braddon;D. Zhi;P. A. Midgley
Satishchandra B. Ogale;Thirumalai V. Venkatesan;Mark G. Blamire
A Di Bernardo;S Diesch;Y Gu;Jacob Linder
Xiaoding Qi;Ming Wei;Yuan Lin;Quanxi Jia
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