Edward A. Laird, Ph.D.
Affiliations: | Harvard University, Cambridge, MA, United States |
Area:
mesoscopic physicsGoogle:
"Edward Laird"Mean distance: 17.67 (cluster 17)
Parents
Sign in to add mentor| Charles Masamed Marcus | grad student | 2010 | Harvard | |
| (Electrical control of quantum dot spin qubits.) | ||||
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Publications
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| Moon H, Lennon DT, Kirkpatrick J, et al. (2020) Machine learning enables completely automatic tuning of a quantum device faster than human experts. Nature Communications. 11: 4161 |
| Pearson AN, Khosla KE, Mergenthaler M, et al. (2020) Radio-frequency optomechanical characterization of a silicon nitride drum. Scientific Reports. 10: 1654 |
| Wen Y, Ares N, Schupp FJ, et al. (2020) A coherent nanomechanical oscillator driven by single-electron tunnelling. Nature Physics. 16: 75-82 |
| Schupp FJ, Vigneau F, Wen Y, et al. (2020) Sensitive radiofrequency readout of quantum dots using an ultra-low-noise SQUID amplifier Journal of Applied Physics. 127: 244503 |
| Lennon DT, Moon H, Camenzind LC, et al. (2019) Publisher Correction: Efficiently measuring a quantum device using machine learning Npj Quantum Information. 5 |
| Lennon DT, Moon H, Camenzind LC, et al. (2019) Efficiently measuring a quantum device using machine learning Npj Quantum Information. 5 |
| Khosla K, Vanner M, Ares N, et al. (2018) Displacemon Electromechanics: How to Detect Quantum Interference in a Nanomechanical Resonator Physical Review X. 8 |
| Wen Y, Ares N, Pei T, et al. (2018) Measuring carbon nanotube vibrations using a single-electron transistor as a fast linear amplifier Applied Physics Letters. 113: 153101 |
| Harding RT, Zhou S, Zhou J, et al. (2017) Spin Resonance Clock Transition of the Endohedral Fullerene ^{15}N@C_{60}. Physical Review Letters. 119: 140801 |
| Mergenthaler M, Liu J, Le Roy JJ, et al. (2017) Strong Coupling of Microwave Photons to Antiferromagnetic Fluctuations in an Organic Magnet. Physical Review Letters. 119: 147701 |