Edward Laird

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Micah P HansonNorthwestern UniversityDirección de correo verificada de northwestern.edu
Charles M. MarcusMaterials Science and Engineering and Department of Physics, University of WashingtonDirección de correo verificada de uw.edu
G A D BriggsProfessor of Nanomaterials, University of OxfordDirección de correo verificada de materials.ox.ac.uk
Natalia AresOxford UniversityDirección de correo verificada de eng.ox.ac.uk
Jason R. PettaUCLA Physics & Astronomy Department and HRL LaboratoriesDirección de correo verificada de physics.ucla.edu
Amir YacobyProfessor of Physics, Harvard UniversityDirección de correo verificada de g.harvard.edu
L.p. KouwenhovenDelft University of TechnologyDirección de correo verificada de tudelft.nl
Gary A. SteeleKavli Institute of Nanoscience DelftDirección de correo verificada de tudelft.nl
Fei PeiPhD, Delft University of TechnologyDirección de correo verificada de asml.com
Leon C. CamenzindRIKENDirección de correo verificada de unibas.ch
Felix Julian SchuppIBM ResearchDirección de correo verificada de zurich.ibm.com
Matthias MergenthalerIBM Research Zurich, Quantum Technology & ComputingDirección de correo verificada de zurich.ibm.com
Tian PeiBeijing Academy of Quantum Information SciencesDirección de correo verificada de baqis.ac.cn
Michael A OsborneProfessor of Machine Learning, University of OxfordDirección de correo verificada de robots.ox.ac.uk
Ferdinand KuemmethNiels Bohr Institute, University of CopenhagenDirección de correo verificada de nbi.dk
Dominic LennonCo-founder and Head of Quantum Technologies, QuantrolOxDirección de correo verificada de quantrolox.com
David ReillyThe University of SydneyDirección de correo verificada de physics.usyd.edu.au
Peter J LeekUniversity of OxfordDirección de correo verificada de physics.ox.ac.uk
Florian VigneauIQM quantum computersDirección de correo verificada de meetiqm.com
Dominik ZumbuhlPhysics Department, University of BaselDirección de correo verificada de unibas.ch

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Edward Laird

Physics Department, Lancaster University

Dirección de correo verificada de lancaster.ac.uk - Página principal

Quantum electronics nanomechanics carbon nanotubes condensed matter physics


Título Ordenar por citas Ordenar por año Ordenar por título	Citado por Citado por	Año
Coherent manipulation of coupled electron spins in semiconductor quantum dots JR Petta, AC Johnson, JM Taylor, EA Laird, A Yacoby, MD Lukin, ... Science 309 (5744), 2180-2184, 2005	3975	2005
Quantum transport in carbon nanotubes EA Laird, F Kuemmeth, GA Steele, K Grove-Rasmussen, J Nygård, ... Reviews of Modern Physics 87 (3), 703-764, 2015	473	2015
Coherent spin manipulation in an exchange-only qubit EA Laird, JM Taylor, DP DiVincenzo, CM Marcus, MP Hanson, ... Physical Review B—Condensed Matter and Materials Physics 82 (7), 075403, 2010	310	2010
Hyperfine-mediated gate-driven electron spin resonance EA Laird, C Barthel, EI Rashba, CM Marcus, MP Hanson, AC Gossard Physical review letters 99 (24), 246601, 2007	254	2007
First results from MAST A Sykes, RJ Akers, LC Appel, ER Arends, PG Carolan, NJ Conway, ... Nuclear Fusion 41 (10), 1423, 2001	199	2001
A valley–spin qubit in a carbon nanotube EA Laird, F Pei, LP Kouwenhoven Nature nanotechnology 8 (8), 565-568, 2013	168	2013
A high quality factor carbon nanotube mechanical resonator at 39 GHz EA Laird, F Pei, W Tang, GA Steele, LP Kouwenhoven Nano letters 12 (1), 193-197, 2012	161	2012
Large spin-orbit coupling in carbon nanotubes GA Steele, F Pei, EA Laird, JM Jol, HB Meerwaldt, LP Kouwenhoven Nature Communications 4, 1573, 2013	153	2013
Valley–spin blockade and spin resonance in carbon nanotubes F Pei, EA Laird, GA Steele, LP Kouwenhoven Nature nanotechnology 7 (10), 630-634, 2012	146	2012
Measurement of temporal correlations of the Overhauser field in a double quantum dot DJ Reilly, JM Taylor, EA Laird, JR Petta, CM Marcus, MP Hanson, ... Physical review letters 101 (23), 236803, 2008	134	2008
Charge-state conditional operation of a spin qubit I Van Weperen, BD Armstrong, EA Laird, J Medford, CM Marcus, ... Physical review letters 107 (3), 030506, 2011	112	2011
Effect of exchange interaction on spin dephasing in a double quantum dot EA Laird, JR Petta, AC Johnson, CM Marcus, A Yacoby, MP Hanson, ... Physical review letters 97 (5), 056801, 2006	104	2006
Machine learning enables completely automatic tuning of a quantum device faster than human experts H Moon, DT Lennon, J Kirkpatrick, NM van Esbroeck, LC Camenzind, ... Nature communications 11 (1), 4161, 2020	83	2020
A coherent nanomechanical oscillator driven by single-electron tunnelling Y Wen, N Ares, FJ Schupp, T Pei, GAD Briggs, EA Laird Nature physics 16 (1), 75-82, 2020	77	2020
Probing quantum devices with radio-frequency reflectometry F Vigneau, F Fedele, A Chatterjee, D Reilly, F Kuemmeth, ... Applied Physics Reviews 10 (2), 2023	74	2023
Efficiently measuring a quantum device using machine learning DT Lennon, H Moon, LC Camenzind, L Yu, DM Zumbühl, GAD Briggs, ... npj Quantum Information 5 (1), 79, 2019	73	2019
Sensitive radio-frequency measurements of a quantum dot by tuning to perfect impedance matching N Ares, FJ Schupp, A Mavalankar, G Rogers, J Griffiths, GAC Jones, ... Physical Review Applied 5 (3), 034011, 2016	71	2016
Measuring the thermodynamic cost of timekeeping AN Pearson, Y Guryanova, P Erker, EA Laird, GAD Briggs, M Huber, ... Physical Review X 11 (2), 021029, 2021	62	2021
Displacemon electromechanics: how to detect quantum interference in a nanomechanical resonator KE Khosla, MR Vanner, N Ares, EA Laird Physical Review X 8 (2), 021052, 2018	57	2018
Strong coupling of microwave photons to antiferromagnetic fluctuations in an organic magnet M Mergenthaler, J Liu, JJ Le Roy, N Ares, AL Thompson, L Bogani, F Luis, ... Physical review letters 119 (14), 147701, 2017	53	2017

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