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. 2018 Sep 2;2018:6793752. doi: 10.1155/2018/6793752

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Copyright © 2018 Kaifa Luo et al.

Exclusive licensee Science and Technology Review Publishing House. Distributed under a Creative Commons Attribution License (CC BY 4.0).

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(a) Four Weyl points in the Brillouin zone and their projections on (001), (010), and (100) direction. C_A = 0.2mF, C_B = 0.01mF, and C_GA = 0.77mF are used in the calculations. The other parameters are the same as Figure 2. The positions of the Weyl points are the intersection points between the nodal ring determined by d₁(k) = d₂(k) = 0 and the two planes determined by d₃(k) = 0. The chirality are indicated as blue stars for χ = +1 and red points for χ = −1. (b) The gapless surface band dispersions on the A-B-k_c plane and terminates in the (001) direction. (c) The Chern numbers for the two-dimensional planes perpendicular to k_a. Moving along k_a, the Chern number increases (decreases) when the plane passing through the Weyl points with +1 (−1) chirality. (d) On the (001) surface, Fermi arcs connect the projections of the bulk Weyl nodes of opposite chiralities onto the surface.