Enhanced superconductivity in aluminum-based hyperbolic metamaterials

Vera Smolyaninova; Christopher Jensen; William Zimmerman; Joseph Prestigiacomo; Michael Osofsky; Heungsoo Kim; Nabil Bassim; Zhen Xing; Mumtaz Qazilbash; Igor Smolyaninov

Enhanced superconductivity in aluminum-based hyperbolic metamaterials

ORAL

Abstract

One of the most important goals of condensed matter physics is materials by design, i.e. the ability to reliably predict and design materials with a set of desired properties. A striking example is the deterministic enhancement of the superconducting properties of materials. Recent experiments have demonstrated that the metamaterial approach is capable of achieving this goal, such as tripling the critical temperature Tc in Al-Al2O3 epsilon near zero (ENZ) core-shell metamaterial superconductors [1]. Here, we demonstrate that an Al/Al2O3 hyperbolic metamaterial geometry is capable of a similar Tc enhancement, while having superior transport and magnetic properties compared to the core-shell metamaterial superconductors. [1]. Vera N. Smolyaninova et.al, Scientific Reports 5, 15777 (2015)

^*This work was supported in part by NSF grant DMR-1104676 and the School of Emerging Technologies at Towson University.

March 16, 2017, 3:42 PM – March 16, 2017, 3:54 PM

Authors

Vera Smolyaninova
- Towson University
- Towson Univ
Christopher Jensen
- Towson University
- Towson Univ
William Zimmerman
- Towson University
- Towson Univ
Joseph Prestigiacomo
- Naval Research Laboratory
- US Naval Research Laboratory
Michael Osofsky
- Naval Research Laboratory
Heungsoo Kim
- Naval Research Laboratory
Nabil Bassim
- Naval Research Laboratory
Zhen Xing
- College of William and Mary
- Department of Physics, College of William and Mary
Mumtaz Qazilbash
- College of William and Mary
Igor Smolyaninov
- University of Maryland