An asymmetric cusp in spectral conductivity markedly enhances the Seebeck coefficient and electronic figure of merit at low temperatures in spin-1 chiral fermion systems.
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P6_3-B30 is a three-dimensional boron crystal that functions as a spinless topological semimetal with a symmetry-enforced nodal surface on the kz=π plane and various Weyl fermions at high-symmetry points.
Reinforcement fine-tuning of a generative model produces new topological insulators and crystalline insulators, exemplified by Ge2Bi2O6 with a 0.26 eV full band gap.
citing papers explorer
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Thermoelectric enhancement from an asymmetric spectral-conductivity cusp in spin-1 chiral fermions
An asymmetric cusp in spectral conductivity markedly enhances the Seebeck coefficient and electronic figure of merit at low temperatures in spin-1 chiral fermion systems.
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Symmetry-protected coexistence of a nodal surface and multiple types of Weyl fermions in $P6_3$-$\text{B}_{30}$
P6_3-B30 is a three-dimensional boron crystal that functions as a spinless topological semimetal with a symmetry-enforced nodal surface on the kz=π plane and various Weyl fermions at high-symmetry points.
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Design Topological Materials by Reinforcement Fine-Tuned Generative Model
Reinforcement fine-tuning of a generative model produces new topological insulators and crystalline insulators, exemplified by Ge2Bi2O6 with a 0.26 eV full band gap.