D
Dominic H. Ryan
Researcher at McGill University
Publications - 47
Citations - 575
Dominic H. Ryan is an academic researcher from McGill University. The author has contributed to research in topics: Magnetic structure & Hydrogen. The author has an hindex of 11, co-authored 47 publications receiving 432 citations. Previous affiliations of Dominic H. Ryan include McMaster University.
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Journal ArticleDOI
Magnetic structure of GdBiPt: A candidate antiferromagnetic topological insulator
R. A. Müller,N. R. Lee-Hone,Luc Lapointe,Dominic H. Ryan,Tami Pereg-Barnea,Andrea Bianchi,Yurij Mozharivskyj,Roxana Flacau +7 more
TL;DR: In this paper, the authors examined a real system, half-Heusler GdBiPt, as a candidate for topological antiferromagnetism and found that the magnetic moments of the gadolinium atoms form ferromagnetic sheets which are stacked ant-romagneticically along the body diagonal.
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Manipulating magnetism in the topological semimetal EuCd2As2
Na Hyun Jo,Brinda Kuthanazhi,Yun Wu,Erik I. Timmons,Tae-Hoon Kim,Lin Zhou,Lin-Lin Wang,Benjamin G. Ueland,Andriy Palasyuk,Dominic H. Ryan,Robert J. McQueeney,Kyungchan Lee,Benjamin Schrunk,Anton Burkov,Ruslan Prozorov,Sergey L. Bud'ko,Adam Kaminski,Paul C. Canfield +17 more
TL;DR: In this article, the authors report the successful synthesis of single crystals of a magnetic semimetal that order ferromagnetic or antiferromagnetic depending on the level of band filling, thus allowing the use of magnetism to tune the topological properties within the same host.
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Intrinsic magnetic properties of single-phase Mn(1+x)Ga (0<x<1) alloys.
Qingmei Lu,Ming Yue,Hongguo Zhang,M. L. Wang,F. Yu,Qingzhen Huang,Dominic H. Ryan,Z. Altounian +7 more
TL;DR: The intrinsic magnetic properties of the Mn-Ga alloys indicate their great potential as novel, rare-earth free permanent magnetic materials.
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Ultra-rapid microwave synthesis of triplite LiFeSO4F
TL;DR: In this article, a defect-peppered nanocrystalline tavorite precursor is converted to the triplite LiFeSO4F by ultra-rapid microwave heating of FeSO4·H2O/LiF.
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Magnetic crystalline-symmetry-protected axion electrodynamics and field-tunable unpinned Dirac cones in EuIn2As2
S. X. M. Riberolles,Thais Victa Trevisan,Thais Victa Trevisan,Brinda Kuthanazhi,Brinda Kuthanazhi,Thomas Heitmann,Feng Ye,David C. Johnston,David C. Johnston,Sergey L. Bud'ko,Sergey L. Bud'ko,Dominic H. Ryan,Paul C. Canfield,Paul C. Canfield,Andreas Kreyssig,Andreas Kreyssig,Ashvin Vishwanath,Robert J. McQueeney,Robert J. McQueeney,Lin-Lin Wang,Lin-Lin Wang,Peter P. Orth,Peter P. Orth,B. G. Ueland +23 more
TL;DR: This work uses neutron diffraction, symmetry analysis, and density functional theory results to demonstrate that EuIn2As2 actually exhibits low-symmetry helical antiferromagnetic order which makes it a stoichiometric magnetic topological-crystalline axion insulator protected by the combination of a 180∘ rotation and time-reversal symmetries.