Ultrafast Microscopy and Magnetism Research Group
University of Manitoba Department of Physics and Astronomy
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Peer Reviewed
23.
Dynamical Negative Differential Resistance in Antiferromagnetically Coupled Few-Atom Spin Chains
S. Rolf-Pissarczyk, S. Yan, L. Malavolti, J. A. J. Burgess, G. McMurtrie, and S. Loth.
Physical Review Letters
119
, 217201 (2017).
22.
Building Complex Kondo Impurities by Manipulating Entangled Spin Chains
D.J. Choi, R. Robles, S. Yan, J.A.J. Burgess, S. Rolf-Pissarczyk, J.P. Gauyacq, N. Lorente, M. Ternes, and S. Loth.
Nano Letters
17
, 6203 (2017).
21.
Non-locally sensing the magnetic states of nanoscale antiferromagnets with an atomic spin sensor
S. Yan, L. Malavolti, J. A. J. Burgess, A. Droghetti, A. Rubio, and S. Loth.
Science Advances
3
, e1603137 (2017).
20.
Closing the superconducting gap in small Pb nanoislands with high magnetic fields
S. Rolf-Pissarczyk, J.A.J. Burgess, S. Yan, and S. Loth.
Physical Review B
94
, 224504 (2016).
19.
Time Resolved Single Dopant Charge Dynamics in Silicon.
M. Rashidi, J.A.J. Burgess, M. Taucer, R. Achal, J. Pitters, S. Loth, and R.A. Wolkow.
Nature Communications
7
, 13258 (2016).
18.
Nanoscale Structure, Dynamics, and Aging Behavior of Metallic Glass Thin Films.
J.A.J. Burgess, C.M.B. Holt, E.J. Luber, D.C. Fortin, G. Popowich, B. Zahiri, P Concepcion, D. Mitlin, and M.R. Freeman.
Scientific Reports
6
, 30973 (2016).
17.
Torque-mixing magnetic resonance spectroscopy.
J.E. Losby, F. Fani Sani, D.T. Grandmont, Z. Diao, M. Belov, J.A.J. Burgess, S.R. Compton, W.K. Hiebert, D. Vick, K. Mohammad, E. Salimi, G.E. Bridges, D.J. Thompson, and M.R. Freeman.
Science
350
, 798 (2015).
16.
Magnetic fingerprint of individual Fe
4
molecular magnets under compression by a scanning tunnelling microscope.
J.A.J. Burgess, L. Malavolti, V. Lanzilotto, M. Mannini, S. Yan, S. Ninova, F. Totti, S. Rolf-Pissarczyk, A. Cornia, R. Sessoli, and S. Loth.
Nature Communications
6
, 8216 (2015).
15.
Three-Dimensional Mapping of Single-Atom Magnetic Anisotropy.
S. Yan, D.J. Choi, J.A.J. Burgess, S. Rolf-Pissarczyk, and S. Loth.
Nanoletters
15
, 1938 (2015).
14.
Control of quantum magnets by atomic exchange bias.
S. Yan, D.J. Choi, J.A.J. Burgess, S. Rolf-Pissarczyk, and S. Loth.
Nature Nanotechnology
10
, 40 (2015).
13.
Nanomechanical AC susceptometry of an individual mesoscopic ferrimagnet.
J.E. Losby, Z. Diao, F. Fani Sani, D.T. Grandmont, M. Belov, J.A.J. Burgess, W.K. Hiebert, and M.R. Freeman.
Solid State Communications
198
, 3 (2014).
12.
An Analytical Model for Vortex Core Pinning in a Micromagnetic Disk.
J.A.J. Burgess, J.E. Losby, and M.R. Freeman.
Journal of Magnetism and Magnetic Materials
361
, 140 (2014).
11.
Strong vortex core pinning and Barkhausen-free magnetization response in thin Permalloy disks induced by implantation of 1 × 10
4
Ga
+
ions.
F. Fani Sani, J.E. Losby, Z. Diao, L.C. Parsons, J.A.J. Burgess, D. Vick, W.K. Hiebert, and M.R. Freeman.
Journal of Applied Physics
115
, 17D131 (2014).
10.
Stiction-free fabrication of lithographic nanostructures on resist-supported nanomechanical resonators.
Z. Diao, J.E. Losby, J.A.J. Burgess, V.T.K. Sauer, W.K. Hiebert, and M.R. Freeman.
Journal of Vacuum Science and Technology B
31
,051805 (2013).
9.
An ultrafast terahertz scanning tunnelling microscope.
T.L. Cocker, V. Jelic, M. Gupta, S.J. Molesky, J.A.J. Burgess, G.De Los Reyes, L.V. Titova, Y.Y. Tsui, M.R. Freeman, and F.A. Hegmann
Nature Photonics
7
, 620 (2013).
8.
Quantitative magneto-mechanical detection and control of the Barkhausen effect.
J.A.J. Burgess, A.E. Fraser, A.E., F. Fani Sani, D. Vick, B.D. Hauer, J.P. Davis, and M.R. Freeman.
Science
339
, 1051 (2013).
7.
Effect of using stencil masks made by focused ion beam milling on permalloy (Ni
81
Fe
19
) nanostructures.
J. Bates, Y. Miyahara, J.A.J. Burgess, Ó. Iglesias-Freire, and P. Grütter.
Nanotechnology
24
, 115301 (2013).
6.
Thermo-mechanical sensitivity calibration of nanotorsional magnetometers.
J.E. Losby, J.A.J. Burgess, Z. Diao, W.H. Hiebert, and M.R. Freeman
Journal of Applied Physics
111
, 07D305 (2012).
5.
Nanomechanical torsional resonator torque magnetometry (invited).
J.P. Davis, D. Vick, P. Li, S.K.N. Portillo, A.E. Fraser, J.A.J. Burgess, D.C. Fortin, W.K. Hiebert, and M.R. Freeman.
Journal of Applied Physics
109
, 07D309 (2011).
4.
Nanomechanical torque magnetometry of permalloy cantilevers.
J.E. Losby, J.A.J. Burgess, C.M.B. Holt, J.N. Westwood, D. Mitlin, W.K. Hiebert, and M.R. Freeman.
Journal of Applied Physics
108
, 123910 (2010).
3.
Thermally activated decay of magnetic vortices.
J.A.J. Burgess, D.C. Fortin, J.E. Losby, D. Grombacher, J.P. Davis, and M.R. Freeman.
Physical Review B
82
, 144403 (2010).
2.
Observation of magnetic supercooling of the transition to the vortex state.
J. Davis, D. Vick, J. Burgess, D. Fortin, P. Li, V. Sauer, W. Hiebert, and M. Freeman.
New Journal of Physics
12
, 093033 (2010).
1.
Nanotorsional resonator torque magnetometry.
J.P. Davis, D. Vick, D., D.C. Fortin, J.A.J. Burgess, W.K. Hiebert, and M.R. Freeman.
Applied Physics Letters
96
, 072513-1 (2010).
,
Archive Postings or Submitted Works
Thesis
PhD
Energetic Transitions of Magnetic Vortices
J.A.J. Burgess. University of Alberta (2013).
News Summaries and Other Non-Peer Reviewed
News and Views:
Scanning probe microscopy: Close-up on spin coherence.
S. Loth, J.A.J. Burgess, and S. Yan.
Nature Nanotechnology
9
, 574 (2014).
,
©
Jacob Burgess 2017
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