Quantum Sensing Lab

Maletinsky Group

 
 

Dr. David A Broadway

 

Contact

Office3.14
Phone061-20-73760
Maildavidaaron.broadway-at-unibas.ch
AddressDepartment of Physics
University of Basel
Klingelbergstrasse 82
4056 Basel, Switzerland
 

CV

since 2019:PostDoc in the Quantum Sensing Group of Prof. Maletinsky at University of Basel, Switzerland. Research topic: Low-temperature scanning probe magnetometry with single nitrogen vacancy centers
2015-2019:Doctor of Philosophy in Physics. Thesis title: Hyperpolarisation of nuclear spins and multi-modal microscopic imaging with diamond defect spins, the University of Melbourne Australia
2013-2015:Degree of Master of Science in Physics. Thesis title: Nanoscale Magnetic Resonance Spectroscopy via Quantum Relaxometry of a Single Nitrogen Vacancy Centre in Diamond, the University of Melbourne Australia
2010-2013:Bachelor’s degree in science, the University of Melbourne Australia
 

Publications

Laser modulation of superconductivity in a cryogenic widefield nitrogen-vacancy microscope
S. E. Lillie, D. A. Broadway, N. Dontschuk, S. C. Scholten, B. C. Johnson, S. Wolf, S. Rachel, L. C. L. Hollenberg, J.-P. Tetienne
arXiv:1912.02936 (2019)

Quantum Bath Control with Nuclear Spin State Selectivity via Pulse-Adjusted Dynamical Decoupling
J. E. Lang, D. A. Broadway, G. A. L. White, L. T. Hall, A. Stacey, L. C. L. Hollenberg, T. S. Monteiro, and J.-P. Tetienne
Phys. Rev. Lett. 123, 210401 (2019)

Imaging Graphene Field-Effect Transistors on Diamond Using Nitrogen-Vacancy Microscopy
S. E. Lillie, N. Dontschuk, D. A. Broadway, D. L. Creedon, L. C.L. Hollenberg, and J.-P. Tetienne
Phys. Rev. Applied 12, 024018 (2019)
Microscopic Imaging of the Stress Tensor in Diamond Using in Situ Quantum Sensors
D. A. Broadway, B. C. Johnson, M. S. J. Barson, S. E. Lillie, N. Dontschuk, D. J. McCloskey, A. Tsai, T. Teraji, D. A. Simpson, A. Stacey, J. C. McCallum, J. E. Bradby, M. W. Doherty, L. C. L. Hollenberg, and J.-P. Tetienne
Nano Letters 7, 4543-4550 (2019)
Enhanced widefield quantum sensing with nitrogen-vacancy ensembles using diamond nanopillar arrays
D. J. McCloskey, N. Dontschuk, D. A. Broadway, A. Nadarajah, A. Stacey, J.-P. Tetienne, L. C. L. Hollenberg, S. Prawer, D. A. Simpson
arXiv:1902.02464
Evidence for Primal sp2 Defects at the Diamond Surface: Candidates for Electron Trapping and Noise Sources
A. Stacey, N. Dontschuk, J.‐P. Chou, D. A. Broadway, A. K. Schenk, M. J. Sear, J.‐P. Tetienne, A. Hoffman, S. Prawer, C. I. Pakes, A. Tadich, N. P. de Leon, A. Gali, L. C. L. Hollenberg
Advanced Materials Interfaces 6 (3), 1801449
Apparent delocalization of the current density in metallic wires observed with diamond nitrogen-vacancy magnetometry
J.-P. Tetienne, N. Dontschuk, D. A. Broadway, S. E. Lillie, T. Teraji, D. A. Simpson, A. Stacey, and L. C. L. Hollenberg
Phys. Rev. B 99, 014436 (2019)
Nonvanishing effect of detuning errors in dynamical-decoupling-based quantum sensing experiments
J. E. Lang, T. Madhavan, J.-P. Tetienne, D. A. Broadway, L. T. Hall, T. Teraji, T. S. Monteiro, A. Stacey, and L. C. L. Hollenberg
Phys. Rev. A 99, 012110
Magnetic noise from ultrathin abrasively deposited materials on diamond
S. E. Lillie, D. A. Broadway, N. Dontschuk, A. Zavabeti, D. A. Simpson, T. Teraji, T. Daeneke, L. C. L. Hollenberg, J.-P. Tetienne
Phys. Rev. Materials 2, 116002
Spatial mapping of band bending in semiconductor devices using in situ quantum sensors
D.A. Broadway, N. Dontschuk, A. Tsai, S. E. Lillie, C. T.-K. Lew, J. C. McCallum, B. C. Johnson, M. W. Doherty, A. Stacey, L. C. L. Hollenberg, J.-P. Tetienne
Nature Electron 1, 502–507 (2018)
Proximity-Induced Artefacts in Magnetic Imaging with Nitrogen-Vacancy Ensembles in Diamond
J.-P. Tetienne, D. A. Broadway, S. E. Lillie, N. Dontschuk, T. Teraji, L. T. Hall, A. Stacey, D. A. Simpson, L. C. L. Hollenberg
Sensors 18 (4), 1290 (2019)
Quantum probe hyperpolarisation of molecular nuclear spins
D A. Broadway, J.-P. Tetienne, A. Stacey, J. D. A. Wood, D. A. Simpson, L. T. Hall, L. C. L. Hollenberg
Nature Communications 9 (2018)
High precision single qubit tuning via thermo-magnetic field control
D. A. Broadway, S. E. Lillie, N. Dontschuk, A. Stacey, L. T. Hall, J.-P. Tetienne, L. C. L. Hollenberg
Appl. Phys. Lett. 112, 103103 (2018)
Spin properties of dense near-surface ensembles of nitrogen-vacancy centers in diamond
J.-P. Tetienne, R. W. de Gille, D. A. Broadway, T. Teraji, S. E. Lillie, J. M. McCoey, N. Dontschuk, L. T. Hall, A. Stacey, D. A. Simpson, L. C. L. Hollenberg
Phys. Rev. B 97, 085402 (2018)
Microwave-free nuclear magnetic resonance at molecular scales
J. D. A. Wood, J.-P. Tetienne, D. A. Broadway, L. T. Hall, D. A. Simpson, A. Stacey, L. C. L. Hollenberg
Nature Communications 8, 15950 (2017)
Environmentally Mediated Coherent Control of a Spin Qubit in Diamond
S. E. Lillie, D. A. Broadway, J. D. A. Wood, D. A. Simpson, A. Stacey, J.-P. Tetienne, L. C. L. Hollenberg
Phys. Rev. Lett. 118, 167204 (2017)
Quantum imaging of current flow in graphene
J.-P. Tetienne, N. Dontschuk, D. A. Broadway, A. Stacey, D. A. Simpson, L. C. L. Hollenberg
Science Advances (2017)
Spin coherence of dense near-surface ensembles of nitrogen-vacancy centres in diamond
J.-P. Tetienne, R. W. de Gille, D. A. Broadway, T. Teraji, S. E. Lillie, J. M. McCoey, N. Dontschuk, L. T. Hall, A. Stacey, D. A. Simpson, L. C. L. Hollenberg
Phys. Rev. B 97, 085402 (2018)
Anticrossing Spin Dynamics of Diamond Nitrogen-Vacancy Centers and All-Optical Low-Frequency Magnetometry
D. A. Broadway, J. D. A. Wood, L. T. Hall, A. Stacey, M. Markham, D. A. Simpson, J.-P. Tetienne, L. C. L. Hollenberg
Phys. Rev. Applied 6, 064001 (2016)
Wide-band nanoscale magnetic resonance spectroscopy using quantum relaxation of a single spin in diamond
J. D. A. Wood, D. A. Broadway, L. T. Hall, A. Stacey, D. A. Simpson, J.-P. Tetienne, L. C. L. Hollenberg
Phys. Rev. B 94, 155402 (2016)

 

David A Broadway

PostDoc