- Ph.D. Physics Stanford Univ 2001
Professor Nadya Mason received her bachelor's degree in physics from Harvard University in 1995 and received her doctorate in physics in 2001 from Stanford University, working in the group of Aharon Kapitulnik. Her thesis research was on phase transitions in two-dimensional superconductors.
Prior to joining the physics faculty at Illinois, Professor Mason was a Junior Fellow in the Society of Fellows at Harvard University, where she collaborated with Professors Charles Marcus and Michael Tinkham on projects related to both carbon nanotubes and nanostructured superconductors.
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Professor Mason's research at Illinois focuses on how electrons behave in low-dimensional, correlated materials, where enhanced interactions are expected to give novel results. The research is relevant to a variety of technologies, including quantum communication, information storage, and qubit control in quantum computers.
Professor Mason's current research focuses on the electronic behavior of materials such as carbon nanotubes, graphene, topological insulators, nanostructured superconductors, and other novel 1D or 2D systems. Typical measurements are of electronic transport at low temperatures. Typical projects include: (i) Tunneling experiments in carbon nanotubes, to study unusual correlated states such as Luttinger liquids, (ii) Studying emergent transport behavior of hybrid systems, e.g., superconductor-graphene, superconductor-toplogical insulator, graphene-PZT, and (iii) Creating planar arrays of superconducting islands, to control and understand collective phenomena in them.
Selected Articles in Journals
- N. Bronn, N. Mason, Spatial dependence of electron interactions in carbon nanotubes Source: Physical Review B, 88: 16, 161409 (2013)
- S. Eley, S. Gopalakrishnan, P.M. Goldbart, N. Mason, Dependence of Global Superconductivity on Inter-island Coupling in Arrays of long sns Junctions, Journal of Physics: Condensed Matter, 25: 44, 445701 (2013)
- E. Breckenfeld, N. Bronn, J. Karthik, A. R. Damodaran, S. Lee, N. Mason, and L.W.Martin, Effect of Growth Induced (Non)Stoichiometry on the Structure and Interfacial Conductivity of LaAlO3/SrTiO3, Physical Review Letters, 110, 196804 (2013).
- S. Cho, B. Dellabetta, A. Yang, J. Schneeloch, Z. J. Xu, T. Valla, G. Gu, M.J. Gilbert, N. Mason, Symmetry Protected Josephson Supercurrents in Three-Dimensional Topological Insulators. Nature Communications, 4, 1689 (2013).
- N. Mason and M. Stehno, No charge for spin transport. Nature Physics: News and Views 9, 67(2013).
- Y. Li and N. Mason, Tunneling spectroscopy of graphene using planar Pb probes. Applied Physics Letters 102, 023102 (2013).
- S. Eley, S. Gopalakrishnan, P.M. Goldbart, and N. Mason. Approaching zero-temperature metallic states in mesoscopic superconductor-normal-superconductor arrays. Nature Physics, 8, 59 (2012).
- S. Scharfenberg, N. Mansukhani, C. Chialvo, R. Weaver, and N. Mason, Observation of a snap-through instability in graphene. Applied Physics Letters 100, 021910 (2012).
- T. Dirks, T. Hughes, B. Uchoa, S. Lal, Y-F. Chen, C. Chialvo, P.M. Goldbart, and N. Mason. Transport through Andreev bound states in a graphene quantum dot. Nature Physics,98,091908 (2011).
- S. Scharfenberg, D. Rocklin, C. Chialvo, R. Weaver, P.M. Goldbart, and N. Mason. Probing the mechanical properties of graphene using a corrugated elastic substrate. Applied Physics Letters, 98, 091908 (2011).
- Y-F. Chen, M-H. Bae, C. Chialvo, T. Dirks, A. Bezryadin, and N. Mason. Negative and positive magnetoresistance in bilayer graphene: Effects of weak localization and charge inhomogeneity, Physica B 406, 785 (2011).
- Maria Goeppert Mayer Award, 2012
- Center for Advanced Study Fellow, 2011-2012
- Denice Denton Emerging Leader Award, 2009
- Woodrow Wilson Career Enhancement Fellow 2008-2009
- Diverse Magazine "Emerging Scholar" 2008
- National Science Foundation CAREER Award, 2007-2012
- Junior Fellow, Harvard Society of Fellows 2002-2005
- PHYS 102 - College Physics: E&M & Modern
- PHYS 212 - University Physics: Elec & Mag
- PHYS 213 - Univ Physics: Thermal Physics
- PHYS 214 - Univ Physics: Quantum Physics
- PHYS 497 - Individual Study
- PHYS 597 - Individual Study
- PHYS 598 - Mesoscopics and Nanoscience
- PHYS 599 - Thesis Research