Monopole Superconductivity and Density-Wave Order in Weyl Semi-metals
· Invited
Abstract
We introduce a novel topological class of superconducting and density-wave states which exhibit monopole harmonic symmetry. This so-called “monopole harmonic order” can be realized in interacting Weyl semimetal materials. Generally, when two Fermi surfaces carry different Chern numbers, the many-body ordering between these two Fermi surfaces can exhibit a non-trivial Berry phase inherited from band structure topology. In contrast to other known many-body order, the total vorticity of the ordering gap nodes in momentum space is determined by the monopole charge of the pair Berry phase and is independent of specific ordering mechanisms. Connections to experimental realizations and signatures of monopole harmonic superconductivity and monopole harmonic charge-density-wave states are proposed.
1. Yi Li and Haldane, “Topological Nodal Cooper Pairing in Doped Weyl Metals”, Phys. Rev. Lett. 120, 067003 (2018);
2. Eric Bobrow, Canon Sun, and Yi Li, “Monopole Charge Density Wave States in Weyl Semimetals”, arXiv: 1810.08715.
1. Yi Li and Haldane, “Topological Nodal Cooper Pairing in Doped Weyl Metals”, Phys. Rev. Lett. 120, 067003 (2018);
2. Eric Bobrow, Canon Sun, and Yi Li, “Monopole Charge Density Wave States in Weyl Semimetals”, arXiv: 1810.08715.
*This work is supported by the Institute for Quantum Matter under DOE EFRC grant DE-SC0019331 and by the NSF CAREER grant DMR-1848349, and in part by the Alfred P. Sloan Research Fellowships under grant FG-2018-10971 and the Gordon and Betty Moore Foundations EPiQS Initiative through grant GBMF4305.
–
Presenters
-
Yi Li
- Johns Hopkins University
- Physics and Astronomy, Johns Hopkins University