Baugh, Jonathan - University of Waterloo

个人简介

Jonathan Baugh's research seeks to develop physical devices that will enable quantum information processing (QIP). His experimental program focuses on electron and nuclear spin qubits, especially their realization in semiconductor nanostructures, and the development of quantum control techniques. Solid-state electron and nuclear spin implementations for quantum information processing Spin qubits in quantum dots Nanowires and novel materials Coherent control of quantum systems Electron and nuclear magnetic resonance spectroscopies Graduate affairs committee (Chemistry) 2015-present Research Liaison for Chemistry, 2014-present Director of IQC Postdoctoral Recruitment and Mentorship, 2013-present Member of Quantum Information Grad Program steering committee, 2010-present Library liaison for Chemistry, 2010-2013 Member of Science Faculty Council for Chemistry, 2010-2011 2001 PhD Physics, University of North Carolina at Chapel Hill, USA 1995 BSc Physics, University of Tennessee at Chattanooga, USA

研究领域

Jonathan Baugh is working toward the physical realization of solid-state quantum information processors, using the property of spin to encode and manipulate quantum information. His work has focused on solid-state nuclear magnetic resonance and electron spin resonance, and more recently on quantum transport and development of qubits in semiconductor nanostructures.

近期论文

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“Randomized benchmarking of quantum gates implemented by electron spin resonance”, D. K. Park, G. Feng, R. Rahimi, J. Baugh and R. Laflamme, Journal of Magnetic Resonance 267, 68 (2016). “Orbital Josephson interference in a nanowire proximity effect junction”, K. Gharavi and J. Baugh, Phys. Rev. B. 91, 245436 (2015). “Hyperfine spin qubits in irradiated malonic acid: heat-bath algorithmic cooling”, D. K. Park, G. Feng, R. Rahimi, S. Labruyere, T. Shibata, S. Nakazawa, K. Sato, T. Takui, R. Laflamme and J. Baugh, Quantum Information Processing DOI 10.1007/s11128-015-0985-1 (2015). “Experimental Estimation of Average Fidelity of a Clifford Gate on a 7-qubit Quantum Processor”, D. Lu, H. Li, D-A. Trottier, J. Li, A. Brodutch, A. P. Krismanich, A. Ghavami, G. I. Dmitrienko, G. Long, J. Baugh, R. Laflamme, Phys. Rev. Lett. 114, 140505 (2015). “Magnetoconductance signatures of subband structure in semiconductor nanowires”, G. W. Holloway, D. Shiri, C. M. Haapamaki, K. Willick, G. Watson, R. R. LaPierre and J. Baugh Phys. Rev. B 91, 045422 (2015). “Sensitive magnetic force detection with a carbon nanotube resonator”, K. Willick, C. Haapamaki and J. Baugh, Journal of Applied Physics 115, 114501 (2014).