Quantum spin dynamics

Electric field control of spins in molecular magnets

(2018)

Authors:

Junjie Liu, Jakub Mrozek, William K Myers, Grigore A Timco, Richard EP Winpenny, Benjamin Kintzel, Winfried Plass, Arzhang Ardavan

Correction to "Endohedral Metallofullerene as Molecular High Spin Qubit: Diverse Rabi Cycles in Gd₂@C₇₉N".

Journal of the American Chemical Society 140:19 (2018) 6183

Authors:

Ziqi Hu, Bo-Wei Dong, Zheng Liu, Jun-Jie Liu, Jie Su, Changcheng Yu, Jin Xiong, Di-Er Shi, Yuanyuan Wang, Bing-Wu Wang, Arzhang Ardavan, Zujin Shi, Shang-Da Jiang, Song Gao

EPR of lanthanide complexes: exploring the consequences of ligand induced anisotropy

255th National Meeting and Exposition of the American Chemical Society American Chemical Society (2018)

Authors:

K Fisher, Gabriel Moise, Alice Bowen, Christiane Timmel, Stephen Faulkner, A Kenwright

Implications of bond disorder in a S=1 kagome lattice

Scientific Reports Nature Publishing Group 8:1 (2018) 4745

Authors:

JL Manson, J Brambleby, PA Goddard, PM Spurgeon, JA Villa, Junjie Liu, S Ghannadzadeh, F Foronda, J Singleton, T Lancaster, SJ Clark, IO Thomas, F Xiao, RC Williams, FL Pratt, Stephen J Blundell, Craig V Topping, C Baines, C Campana, B Noll

Abstract:

Strong hydrogen bonds such as F···H···F offer new strategies to fabricate molecular architectures exhibiting novel structures and properties. Along these lines and, to potentially realize hydrogen-bond mediated superexchange interactions in a frustrated material, we synthesized [H2F]2[Ni3F6(Fpy)12][SbF6]2 (Fpy = 3-fluoropyridine). It was found that positionally-disordered H2F+ ions link neutral NiF2(Fpy)4 moieties into a kagome lattice with perfect 3-fold rotational symmetry. Detailed magnetic investigations combined with density-functional theory (DFT) revealed weak antiferromagnetic interactions (J ~ 0.4 K) and a large positive-D of 8.3 K with ms = 0 lying below ms = ±1. The observed weak magnetic coupling is attributed to bond-disorder of the H2F+ ions which leads to disrupted Ni-F···H-F-H···F-Ni exchange pathways. Despite this result, we argue that networks such as this may be a way forward in designing tunable materials with varying degrees of frustration.

Author Correction: How to probe the spin contribution to momentum relaxation in topological insulators.

Nature communications (2018)

Authors:

Moon-Sun Nam, BH Williams, Y Chen, S Contera, S Yao, M Lu, Y-F Chen, GA Timco, CA Muryn, Arzhang Ardavan

Abstract:

The original version of this Article contained an error in the spelling of the author Benjamin H. Williams, which was incorrectly given as Benjamin H. Willams. This has now been corrected in both the PDF and HTML versions of the Article.