In the first reporting period of this project Satchell worked in the group of Prof. Norman Birge at Michigan State University (MSU). The Birge group are world leaders in ferromagnetic Josephson junctions for cryogenic memory and spin-triplet superconductivity. The first task for the fellow at MSU was to create ferromagnetic Josephson junctions with spin-orbit coupling. This work led to two publications where the fellow was first author [1,3].
For the development of devices, one consideration was the surface roughness of the Nb electrode. Roughness of the Nb layer reduces the performance of devices. To minimize the surface roughness, the fellow studied superlattices of [Nb/Al] or [Nb/Au] where the superlattice had a much lower roughness than a single layer of Nb with the same total thickness. This work is submitted for publication [9].
During the incoming phase of the project, the fellow established the lithography methodology for Josephson junction fabrication. The fellow developed a PMA spin-valve Josephson junction device, where two ferromagnetic layers (one Co and the other CoB) could be switched independently. The fellow demonstrated memory operation and this work is now published [6].
As a follow up to the spin-valve Josephson junction result, the fellow next chose to study in more detail the Pt/CoB/Pt part of the spin valve to show transition from a zero to pi ground state phase difference across the junction. Results of this study have been submitted for publication [10].
Journal articles associated with the SUPERSPIN project (chronological):
[1] N. Satchell and N.O. Birge Phys. Rev. B 97, 214509 (2018)
[2] N. Satchell Supercond. Sci. Technol. 32, 020501 (2019) (Invited Viewpoint)
[3] N. Satchell, R. Loloee and N.O. Birge Phys. Rev. B 99, 174519 (2019)
[4] R. Stewart, M.G. Flokstra, M. Rogers, N. Satchell, G. Burnell, D. Miller, H. Luetkens, T. Prokscha, A. Suter, E. Morenzoni, S.L. Lee Phys. Rev. B 100 (2), 020505 (2019)
[5] M. G. Flokstra, R. Stewart, N. Satchell, G. Burnell, H. Luetkens, T. Prokscha, A. Suter, E. Morenzoni, S. Langridge, and S. L. Lee App. Phys. Lett. 115, 072602 (2019)
[6] N. Satchell, P. M. Shepley, M. Algarni, M. Vaughan, E. Darwin, M. Ali, M. C. Rosamond, L. Chen, E. H. Linfield, B. J. Hickey, and G. Burnell App. Phys. Lett. 116, 022601 (2020)
[7] M. Vaughan, N. Satchell, M. Ali, C. J. Kinane, G. B. G. Stenning, S. Langridge, and G. Burnell Phys. Rev. Research 2, 013270 (2020)
Journal articles associated with the SUPERSPIN project to be published:
[8] N. Satchell, C. J. Kinane, J. F. K. Cooper, G. Stenning, T. R. Charlton, J. D. S. Witt, M. Batley, G. Burnell, P. J. Curran, S. J. Bending, and S. Langridge To appear in J. Vis. Exp.
[9] P. Quarterman, N. Satchell, B. J. Kirby, R. Loloee, G. Burnell, N. O. Birge, and J. A. Borchers Submitted to Phys. Rev. Materials arXiv:2001.09310
[10] N. Satchell, T. Mitchell, P. M. Shepley, E. Darwin, B. J. Hickey, and G. Burnell Submitted to Phys. Rev. Applied arXiv:2005.00384