Publications

Cheng-Wei Lee, Meenakshi Singh, Adele Tamboli, Vladan Stevanovic,  “Transition metal impurities in Silicon: Computational search for a semiconductor qubit”, npj Computational Materials 8, 172 (2022)

Aiello et al., “Achieving a quantum smart workforce”, Quantum Science and Technology 6, 030501 (2021)

Long et al., “A universal quantum gate set for transmon qubits with strong ZZ interactions”, arXiv:2103.12305 (2021)

K. Blagg, P. Allen, T-M. Lu, M. P. Lilly, M. Singh, “Focused ion beam deposited carbon-platinum nanowires for cryogenic resistive thermometry“, Carbon 169, 482 – 487 (2020)

Sutton et al., “Effects of W doping in VO2 on the mangetic properties of VO2/Ni heterostructures”, Journal of Superconductivity and Novel Magnetism 33, 2493 – 2499 (2020)

K. Blagg, T. Greymountain, W. Kern, M. Singh, “Template-based electrodeposition and characterization of niobium nanowires”, Electrochemistry Communications 101, 39 – 42 (2019)

Pacheco et al., “Ion implantation for deterministic single atom devices”, Reviews of Scientific Instruments 88, 123301 (2017)

Singh et al., “Electrostatically defined silicon quantum dots with counted antimony donor implants”, Applied Physics Letters 108, 062101 (2016)

Xing et al., “Electronic transport properties of topological insulator films and low dimensional superconductors”, Frontiers of Physics 8, 5, 491 – 508 (2013) 

M. Singh, M. H. W. Chan, “Observation of individual macroscopic quantum tunneling events in superconducting nanowires”, Physical Review B 88, 064511 (2013)

Sun et al., “Voltage-current properties of superconducting amorphous tungsten nanostrips”, Scientific Reports 3, 2307 (2013)

Liu, Z. Ma, Y-F. Zhao, M. Singh, and J. Wang, “Transport properties of topological insulators films and nanowires”, Chinese Physics B 22, 067302 (2013)

Y-X. Ou, M. Singh, J. Wang, “Quantum transport in topological insulator hybrid structures – a combination of topological insulator and superconductor”, Science China 55, 12, 2226-2236 (2012)

J. Wang et al., “Superconductivity in single crystalline Pb nanowires contacted by normal metal electrodes”, Physical Review B 86, 035439 (2012)

J. Wang et al., “Interplay between topological insulators and superconductors”, Physical Review B 84, 045415 (2012)

M. Singh, J. Wang, M. Tian, T. E. Mallouk, and M. H. W. Chan, “Antiproximity effect in aluminum nanowires with no applied magnetic field”, Physical Review B 83, 220506 (2011) 

J. Wang, M. Singh et al., “Interplay between superconductivity and ferromagnetism in crystalline nanowires”, Nature Physics 6, 389–394 (2010)

M. Singh, M. Tian, N. Kumar, T. E. Mallouk, M. H. W. Chan, “Synthesis and Superconductivity of Electrochemically Grown Single-Crystal Aluminum Nanowires”, Chemistry of Materials 21, 5557–5559 (2010)

M. K. Verma, T. Lessinnes, D. Carati, I. Sarris, K. Kumar, M. Singh, “Dynamo transition in low-dimensional models”, Physical Review E 78, 036409 (2008)

M. Singh, Y. Sun and J. Wang, book chapter titled “Superconductivity in Nanoscale Systems”, Intech (January, 2012)

K. Blagg, P. Allen, J. Briggs, Y. Liu, C. Koh, R. T. Collins, M. Singh, “Quantum Tic-Tac-Toe: A module developed for hands-on learning“, 10.17605/OSF.IO/5J2PG (2021)

K. Blagg, Y. Liu, W. Schenken, B. M. Moskal, M. Singh, C. A. Koh, and R. T. Collins, “Patterning by light: the engineering of integrated circuits: a module developed for hands-on learning”, 10.25676/11124/173099 (2019)

C. Pierce, P. J. Allen, G. Smith, R. T. Collins, C. A. Koh, B. M. Moskal, and M. Singh, “Thermal transport: conduction and radiation: a module developed for hands-on learning”, 10.25676/11124/173082 (2019).