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Materials considerations for forming the topological insulator phase in InAs/GaSb heterostructures

https://doi.org/10.1103/PhysRevMaterials.2.064603

Shojaei, B. ; McFadden, A. P. ; Pendharkar, M. ; Lee, J. S. ; Flatté, M. E. ; Palmstrøm, C. J. ( June 2018 , Physical Review Materials)
Mirage Andreev Spectra Generated by Mesoscopic Leads in Nanowire Quantum Dots

https://doi.org/10.1103/PhysRevLett.121.127705

Su, Z. ; Zarassi, A. ; Hsu, J.-F. ; San-Jose, P. ; Prada, E. ; Aguado, R. ; Lee, E. J. ; Gazibegovic, S. ; Op het Veld, R. L. ; Car, D. ; et al ( September 2018 , Physical Review Letters)
Growth, electrical, structural, and magnetic properties of half-Heusler CoTi1−xFexSb

https://doi.org/10.1103/PhysRevMaterials.2.014406

Harrington, S. D. ; Rice, A. D. ; Brown-Heft, T. L. ; Bonef, B. ; Sharan, A. ; McFadden, A. P. ; Logan, J. A. ; Pendharkar, M. ; Feldman, M. M. ; Mercan, O. ; et al ( January 2018 , Physical Review Materials)
Limits to mobility in InAs quantum wells with nearly lattice-matched barriers

https://doi.org/10.1103/PhysRevB.94.245306

Shojaei, B. ; Drachmann, A. C. ; Pendharkar, M. ; Pennachio, D. J. ; Echlin, M. P. ; Callahan, P. G. ; Kraemer, S. ; Pollock, T. M. ; Marcus, C. M. ; Palmstrøm, C. J. ( December 2016 , Physical Review B)
Parity-preserving and magnetic field–resilient superconductivity in InSb nanowires with Sn shells

https://doi.org/10.1126/science.aba5211

Pendharkar, M. ; Zhang, B. ; Wu, H. ; Zarassi, A. ; Zhang, P. ; Dempsey, C. P. ; Lee, J. S. ; Harrington, S. D. ; Badawy, G. ; Gazibegovic, S. ; et al ( April 2021 , Science)

Improving materials used to make qubits is crucial to further progress in quantum information processing. Of particular interest are semiconductor-superconductor heterostructures that are expected to form the basis of topological quantum computing. We grew semiconductor indium antimonide nanowires that were coated with shells of tin of uniform thickness. No interdiffusion was observed at the interface between Sn and InSb. Tunnel junctions were prepared by in situ shadowing. Despite the lack of lattice matching between Sn and InSb, a 15-nanometer-thick shell of tin was found to induce a hard superconducting gap, with superconductivity persisting in magnetic field up to 4 teslas. A small island of Sn-InSb exhibits the two-electron charging effect. These findings suggest a less restrictive approach to fabricating superconducting and topological quantum circuits.

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Growth, structural, and magnetic properties of single-crystal full-Heusler Co 2 TiGe thin films

https://doi.org/10.1063/1.4984311

Logan, J. A. ; Brown-Heft, T. L. ; Harrington, S. D. ; Wilson, N. S. ; McFadden, A. P. ; Rice, A. D. ; Pendharkar, M. ; Palmstrøm, C. J. ( June 2017 , Journal of Applied Physics)
Valence-band offsets of CoTiSb/In 0.53 Ga 0.47 As and CoTiSb/In 0.52 Al 0.48 As heterojunctions

https://doi.org/10.1063/1.4985200

Harrington, S. D. ; Sharan, A. ; Rice, A. D. ; Logan, J. A. ; McFadden, A. P. ; Pendharkar, M. ; Pennachio, D. J. ; Wilson, N. S. ; Gui, Z. ; Janotti, A. ; et al ( August 2017 , Applied Physics Letters)