Prof Arzhang Ardavan

Manipulating quantum materials with quantum light

(2018)

Authors:

Martin Kiffner, Jonathan Coulthard, Frank Schlawin, Arzhang Ardavan, Dieter Jaksch

Magnetic edge states and coherent manipulation of molecular graphene nanoribbons

Nature Springer Nature 557 (2018) 691-695

Authors:

Michael Slota, A Keerthi, William Myers, E Tretyakov, M Baumgarten, Arzhang Ardavan, H Sadeghi, CJ Lambert, K Mullen, Lapo Bogani

Abstract:

Graphene, a single-layer network of carbon atoms, shows outstanding electrical and mechanical properties, and graphene ribbons with nanometer-scale widths, should exhibit half-metallicity, quantum confinement and edge effects. Magnetic edges in graphene nanoribbons have undergone intense theoretical scrutiny, because their coherent manipulation would be a milestone for spintronic and quantum computing devices. Experimental investigations are however hampered by the fact that most nanoribbons do not have the required atomic control of the edges, and that the proposed graphene terminations are chemically unstable. Here we solve both of these problems, by using molecular graphene nanoribbons functionalized with stable spin-bearing radical groups. We observe the predicted delocalized magnetic edge states, and test present theoretical models about the spin dynamics and the spin-environment interactions. Comparison with a non graphitized reference material allows clear identification of fingerprint behaviours. We quantify the spin-orbit coupling parameters, define the interaction patterns, and unravel the spin decoherence channels. Even without any optimization, the spin coherence time is in the μs range at room temperature, and we perform quantum inversion operations between edge and radical spins. This new approach to problem of spins in well-defined electronic nanostructures offers a long awaited experimental testbed for the theory of magnetism in graphene nanoribbons. The observed coherence times open up encouraging perspectives for the use of magnetic nanoribbons in quantum spintronic devices.

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

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.