Your search keyword '"Bertran, Francois"' showing total 2 results

1. Emergence of Weyl fermions by ferrimagnetism in a noncentrosymmetric magnetic Weyl semimetal.

Author

Li, Cong, Zhang, Jianfeng, Wang, Yang, Liu, Hongxiong, Guo, Qinda, Rienks, Emile, Chen, Wanyu, Bertran, Francois, Yang, Huancheng, Phuyal, Dibya, Fedderwitz, Hanna, Thiagarajan, Balasubramanian, Dendzik, Maciej, Berntsen, Magnus H., Shi, Youguo, Xiang, Tao, and Tjernberg, Oscar

Subjects

WEYL fermions, CONDENSED matter physics, FERMI surfaces, PHOTOELECTRON spectroscopy, FERRIMAGNETISM, PHOTOEMISSION, TIME reversal

Abstract

Condensed matter physics has often provided a platform for investigating the interplay between particles and fields in cases that have not been observed in high-energy physics. Here, using angle-resolved photoemission spectroscopy, we provide an example of this by visualizing the electronic structure of a noncentrosymmetric magnetic Weyl semimetal candidate NdAlSi in both the paramagnetic and ferrimagnetic states. We observe surface Fermi arcs and bulk Weyl fermion dispersion as well as the emergence of new Weyl fermions in the ferrimagnetic state. Our results establish NdAlSi as a magnetic Weyl semimetal and provide an experimental observation of ferrimagnetic regulation of Weyl fermions in condensed matter. A Weyl semimetal formally requires either broken time reversal symmetry or inversion symmetry. One class of Weyl semimetals-the crystal family of NdAlSi-exhibits both. Here, Li et al perform angle-resolved photoemission spectroscopy measurements on NdAlSi, and observe the formation of an additional Weyl fermion as the material becomes ferrimagnetic. [ABSTRACT FROM AUTHOR]

Published

2023

2. Electronic structure of Bi nanolines on InAs(100).

Author

Nafday, Dhani, Richter, Christine, Heckmann, Olivier, Wang, Weimin, Mariot, Jean-Michel, Djukic, Uros, Vobornik, Ivana, Lefevre, Patrick, Taleb-Ibrahimi, Amina, Bertran, Franco̧is, Rault, Julien, Nicolaï, Laurent, Ong, Chin Shen, Thunström, Patrik, Hricovini, Karol, Minár, Ján, and Di Marco, Igor

Subjects

*ELECTRONIC structure, *PHOTOELECTRON spectroscopy, *BAND gaps, *PHOTOEMISSION, *NANOWIRES, *VALENCE bands, *DENSITY functional theory

Abstract

Self-assembled nanolines are attractive to build the technological devices of next generation, but characterizing their electronic properties is often difficult to achieve. In this work we employ angle-resolved photoemission spectroscopy and density functional theory to clarify the electronic structure exhibited by self-assembled Bi nanolines grown on the InAs(100) surface. A surface resonance associated to the reconstructed ζ (4 × 2) surface is visible in the photoemission spectra before and after the formation of the Bi nanolines. This demonstrates that Bi deposition does not necessarily drive a transition to an unreconstructed surface in the substrate, which is contrary to what was reported in previous studies. In addition, experiment and theory show the presence of a flat band located in the band gap of InAs, just above the valence band maximum. This flat band is associated to the Bi nanolines and possesses a strong orbital character, consistent with its unidimensional nature. These spectral features suggest that Bi nanolines on InAs(100) may have a strongly polarized conductivity, which makes them suitable to be exploited as nanowires in nanotechnology. The coexistence with an accumulation layer suggests an even farther functionalization. [Display omitted] • Self-assembled Bi nanolines form on the InAs(100) surface. • The ζ (4 × 2) reconstruction of InAs is preserved after Bi deposition and annealing. • A spectral signature of the Bi nanolines is a flat band located inside the InAs band gap. • The strong orbital character of this flat band suggests unidimensional transport properties. [ABSTRACT FROM AUTHOR]

Published

2023