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Thomas Winyard
Thomas Winyard
Verified email at leeds.ac.uk
Title
Cited by
Cited by
Year
Non-London electrodynamics in a multiband London model: Anisotropy-induced nonlocalities and multiple magnetic field penetration lengths
M Silaev, T Winyard, E Babaev
Physical Review B 97 (17), 174504, 2018
162018
Broken planar Skyrmions—statics and dynamics
P Jennings, T Winyard
Journal of High Energy Physics 2014 (1), 1-19, 2014
162014
Hierarchies of length-scale based typology in anisotropic -wave multiband superconductors
T Winyard, M Silaev, E Babaev
Physical Review B 99 (6), 064509, 2019
112019
Ring solitons and soliton sacks in imbalanced fermionic systems
M Barkman, A Samoilenka, T Winyard, E Babaev
Physical Review Research 2 (4), 043282, 2020
102020
Magnetic signatures of domain walls in and superconductors: Observability and what that can tell us about the superconducting order parameter
A Benfenati, M Barkman, T Winyard, A Wormald, M Speight, E Babaev
Physical Review B 101 (5), 054507, 2020
92020
Chiral -wave superconductors have complex coherence and magnetic field penetration lengths
M Speight, T Winyard, E Babaev
Physical Review B 100 (17), 174514, 2019
92019
Skyrmions and spin waves in frustrated ferromagnets at low applied magnetic field
M Speight, T Winyard
Physical Review B 101 (13), 134420, 2020
82020
Baby Skyrmions in AdS
M Elliot-Ripley, T Winyard
Journal of High Energy Physics 2015 (9), 1-17, 2015
82015
Skyrmion formation due to unconventional magnetic modes in anisotropic multiband superconductors
T Winyard, M Silaev, E Babaev
Physical Review B 99 (2), 024501, 2019
62019
Intervortex forces in competing-order superconductors
M Speight, T Winyard
Physical Review B 103 (1), 014514, 2021
52021
A model for gauged skyrmions with low binding energies
J Cork, D Harland, T Winyard
Journal of Physics A: Mathematical and Theoretical 55 (1), 015204, 2021
42021
A consistent two-skyrmion configuration space from instantons
C Halcrow, T Winyard
Journal of High Energy Physics 2021 (12), 1-24, 2021
42021
Hyperbolic Skyrmions
T Winyard
arXiv preprint arXiv:1503.08522, 2015
42015
Magnetic field behavior in and superconductors: Twisting of applied and spontaneous fields
M Speight, T Winyard, A Wormald, E Babaev
Physical Review B 104 (17), 174515, 2021
32021
The Skyrme Model: Curved Space, Symmetries and Mass
T Winyard
Durham University, 2016
12016
Erratum: A model for gauged skyrmions with low binding energies (2022 J. Phys. A: Math. Theor. 55 015204)
J Cork, D Harland, T Winyard
Journal of Physics A: Mathematical and Theoretical 55 (27), 279501, 2022
2022
Magnetic response of nematic superconductors: skyrmion stripes and their signatures in muon spin relaxation experiments
M Speight, T Winyard, E Babaev
arXiv preprint arXiv:2203.03510, 2022
2022
Symmetries, Length Scales, Magnetic Response and Skyrmion Chains in Nematic Superconductors
M Speight, T Winyard, E Babaev
arXiv preprint arXiv:2202.13674, 2022
2022
Skyrmion and Baby Skyrmion Formation from Domain Walls
T Winyard
arXiv preprint arXiv:1507.07482, 2015
2015
Broken Baby Skyrmions
T Winyard
2013
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