Items where Author is "Laird, Edward"

Khan, Saba and Laird, Edward (2024) A vibrating carbon nanotube probe to study superfluid 4He. PhD thesis, Lancaster University.

Smalley, Andrew and Laird, Edward (2024) Developing EPR Spectroscopy with 15N@C60 to Provide a Basis for Technological Solutions for a Chip-Scale Atomic Clock. Masters thesis, Lancaster University.

Bailey, Ian and Chakraborty, Bhaswati and Chapman, Gemma and Daw, Edward J. and Gallop, John and Gregori, Gianluca and Hardy, Edward and Hao, Ling and Laird, Edward and Leek, Peter and March-Russell, John and Meeson, Phil and Ó Peatáin, Seaárbhan and Pashkin, Yuri and Perry, Mitchell G. and Piscitelli, Michele and Romans, Edward and Sarkar, Subir and Smith, Paul J. and Song, Ningqiang and Soni, Mahesh and Tan, Boon K. and West, Stephen and Withington, Stafford (2023) Searching for wave-like dark matter with QSHS. SciPost Physics Proceedings (12): 40. ISSN 2666-4003

Vigneau, F. and Fedele, Federico and Chatterjee, Anasua and Reilly, David and Kuemmeth, F and Gonzalez-Zalba, M. F. and Laird, Edward and Ares, Natalia (2023) Probing quantum devices with radio-frequency reflectometry. Applied Physics Reviews, 10 (2): 021305. ISSN 1931-9401

Kanari-Naish, Lydia A. and Clarke, Jack and Vanner, Michael R. and Laird, Edward (2021) Can the displacemon device test objective collapse models? AVS Quantum Science, 3: 045603.

Laird, Edward (2021) Oscillation Device. WO2021186161A1.

Mergenthaler, M and Schupp, F J and Nersisyan, A. and Ares, N and Baumgartner, A. and Schönenberger, C. and Briggs, G. A. D. and Leek, P J and Laird, Edward (2021) Radio-frequency characterization of a supercurrent transistor made of a carbon nanotube. Materials for Quantum Technology, 1: 035003.

Pearson, A. N. and Guryanova, Y. and Erker, P. and Laird, Edward and Briggs, G. Andrew D. and Huber, M. and Ares, N (2021) Measuring the thermodynamic cost of timekeeping. Physical Review X, 11 (2): 021029. ISSN 2160-3308

Chawner, Joshua and Barraud, S. and Gonzalez-Zalba, M. F. and Holt, Stephen and Laird, Edward and Pashkin, Yuri and Prance, Jonathan (2021) Non-galvanic calibration and operation of a quantum dot thermometer. Physical Review Applied, 15 (3): 034044. ISSN 2331-7019

Moon, H. and Lennon, D. T. and Kirkpatrick, J. and van Esbroeck, N. M. and Camenzind, L. C. and Yu, Liuqi and Vigneau, F. and Zumbühl, Dominik and Briggs, G. Andrew D. and Osborne, M. A. and Sejdinovic, D. and Laird, Edward and Ares, N. (2020) Machine learning enables completely automatic tuning of a quantum device faster than human experts. Nature Communications, 11: 4161. ISSN 2041-1723

Schupp, F J and Vigneau, F. and Wen, Yutian and Mavalankar, A and Griffiths, J. P. and Jones, G. A. C. and Farrer, I. and Ritchie, David and Smith, C. G. and Camenzind, L. C. and Yu, L. and Zumbühl, Dominik and Briggs, G. Andrew D. and Laird, Edward (2020) Sensitive radio-frequency read-out of quantum dots using an ultra-low-noise SQUID amplifier. Journal of Applied Physics, 127: 244503. ISSN 0021-8979

Laird, Edward (2020) Magnetic Properties of Endohedral Fullerenes : Applications and Perspectives. In: 21st Century Nanoscience – A Handbook : Low-Dimensional Materials and Morphologies (Volume Four). CRC Press. ISBN 9780815355281

Pearson, A. N. and Khosla, Kiran and Mergenthaler, M. and Briggs, G. Andrew D. and Laird, Edward and Ares, N. (2020) Radio-frequency optomechanical characterization of a silicon nitride drum. Scientific Reports, 10: 1654. ISSN 2045-2322

Wen, Yutian and Ares, N. and Schupp, F. J. and Pei, T. and Briggs, G. A. D. and Laird, Edward (2020) A coherent nanomechanical oscillator driven by single-electron tunnelling. Nature Physics, 16 (1). pp. 75-82. ISSN 1745-2473

Lennon, D. T. and Moon, H. and Camenzind, L. C. and Yu, Liuqi and Zumbuhl, D. M. and Briggs, G. A. D. and Osborne, M. A. and Laird, Edward and Ares, N. (2019) Efficiently measuring a quantum device using machine learning. npj Quantum Information, 5: 79.