P C Canfield
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Explore the profile of P C Canfield including associated specialties, affiliations and a list of published articles.
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90
Citations
345
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Recent Articles
1.
Ueland B, Kreyssig A, Mun E, Lynn J, Harriger L, Pratt D, et al.
Phys Rev B
. 2024 Jun;
99(18).
PMID: 38846064
We present neutron-diffraction data for the cubic-heavy-fermion YbBiPt that show broad magnetic diffraction peaks due to the fragile short-range antiferromagnetic (AFM) order persist under an applied magnetic-field . Our results...
2.
Diaz J, Wang K, Straquadine J, Putzke C, Yang Q, Yan B, et al.
Nat Commun
. 2024 May;
15(1):4585.
PMID: 38811582
The so-called "extreme magnetoresistance" (XMR) found in few conductors poses interesting conceptual challenges which address needs in technology. In contrast to the more common XMR in semi-metals, PtSn stands out...
3.
Chaffey C, Williams C, Tanatar M, Budko S, Canfield P, Curro N
Rev Sci Instrum
. 2024 Apr;
95(4).
PMID: 38568022
We present nuclear magnetic resonance data in BaFe2As2 in the presence of pulsed strain fields that are interleaved in time with the radio frequency excitation pulses. In this approach, the...
4.
Riberolles S, Slade T, Han T, Li B, Abernathy D, Canfield P, et al.
Nat Commun
. 2024 Feb;
15(1):1592.
PMID: 38383472
Magnetic kagome metals are a promising platform to develop unique quantum transport and optical phenomena caused by the interplay between topological electronic bands, strong correlations, and magnetic order. This interplay...
5.
Wilde J, Sapkota A, Ding Q, Xu M, Tian W, Budko S, et al.
J Phys Condens Matter
. 2023 Jun;
35(39).
PMID: 37343571
The magnetic order for several compositions of CaK(Fe1-xMn)Ashas been studied by nuclear magnetic resonance (NMR), Mössbauer spectroscopy, and neutron diffraction. Our observations for the Mn-doped 1144 compound are consistent with...
6.
Riberolles S, Slade T, Dally R, Sarte P, Li B, Han T, et al.
Nat Commun
. 2023 May;
14(1):2658.
PMID: 37160929
Ferromagnetic (FM) order in a two-dimensional kagome layer is predicted to generate a topological Chern insulator without an applied magnetic field. The Chern gap is largest when spin moments point...
7.
Jo N, Wu Y, Trevisan T, Wang L, Lee K, Kuthanazhi B, et al.
Nat Commun
. 2021 Dec;
12(1):7169.
PMID: 34887396
Electrons navigate more easily in a background of ordered magnetic moments than around randomly oriented ones. This fundamental quantum mechanical principle is due to their Bloch wave nature and also...
8.
Idzuchi H, Pientka F, Huang K, Harada K, Gul O, Shin Y, et al.
Nat Commun
. 2021 Sep;
12(1):5332.
PMID: 34504077
In two-dimensional (2D) NbSe crystal, which lacks inversion symmetry, strong spin-orbit coupling aligns the spins of Cooper pairs to the orbital valleys, forming Ising Cooper pairs (ICPs). The unusual spin...
9.
Riberolles S, Trevisan T, Kuthanazhi B, Heitmann T, Ye F, Johnston D, et al.
Nat Commun
. 2021 Feb;
12(1):999.
PMID: 33579928
Knowledge of magnetic symmetry is vital for exploiting nontrivial surface states of magnetic topological materials. EuInAs is an excellent example, as it is predicted to have collinear antiferromagnetic order where...
10.
LaBarre P, Kuthanazhi B, Abel C, Canfield P, Ramirez A
Phys Rev Lett
. 2021 Jan;
125(24):247203.
PMID: 33412048
The plateau at 1/3 of the saturation magnetization M_{s} in the metamagnet CeSb is accompanied by a state of ferromagnetic layers of spins in an up-up-down sequence. We measured M...