Browse Physics

A. J. Schofield, Physics 2, 93 (2009) – Published November 9, 2009

Magnetism Superconductivity

A theory of novel phase formation near quantum critical points suggests that large fluctuations lead to magnetic analogs of inhomogeneous superconductivity.

Alexander V. Balatsky, David Parker, Physics 2, 59 (2009) – Published July 13, 2009

Superconductivity

An angle-resolved photoemission study suggests that different physics may underlie two major classes of iron-based superconductors.

Zlatko Tesanovic, Physics 2, 60 (2009) – Published July 13, 2009

Superconductivity

Are electronic correlations in the new iron-pnictide high-temperature superconductors as strong as in their older cuprate brethren? Yes, say some physicists; no, say others. X-ray experiments deliver the verdict.

Miles V. Klein, Physics 2, 46 (2009) – Published June 1, 2009

Superconductivity

Calculations of the Raman response for iron pnictide superconductors reveal a collective mode that may be crucial to unravel the pairing symmetry.

Ernst Helmut Brandt, Shi-Ping Zhou, Physics 2, 22 (2009) – Published March 16, 2009

Superconductivity

Decoration experiments of the two-gap superconductor MgB₂ show evidence for long-range attraction between vortices in a superconducting mixed state, which is interpreted as coexisting type-I and type-II

Michelle Johannes, Physics 1, 28 (2008) – Published October 13, 2008

Superconductivity

The discovery of superconductivity in iron-based compounds with a similar, but simpler, structure to the iron-pnictides could provide an important testing ground for unconventional superconductivity.

Dung-Hai Lee, Physics 1, 19 (2008) – Published September 15, 2008

Superconductivity

Discovering superconductivity above room temperature is a dream for modern science and technology. Now, theorists propose that for certain types of superconductors, contact with a metal layer could greatly increase the transition temperatures of these materials—in some cases by as much as an order of magnitude.