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We compute the spectrum of the Dirac operator on 3-dimensional Heisenberg manifolds. The behavior under collapse to the 2-torus is studied. Depending on the spin structure either all eigenvalues tend to $\pm\infty$ or there are eigenvalues…

Differential Geometry · Mathematics 2007-05-23 Bernd Ammann , Christian Baer

We discuss the self-adjointness in $L^2$-setting of the operators acting as $-\nabla\cdot h\nabla$, with piecewise constant functions $h$ having a jump along a Lipschitz hypersurface $\Sigma$, without explicit assumptions on the sign of…

Spectral Theory · Mathematics 2024-04-18 Badreddine Benhellal , Konstantin Pankrashkin

We propose three transition-metal adatom systems on 3C-SiC(111) surfaces as a versatile platform to realize massless Dirac fermions and flat bands with strong electronic correlations. Using density functional theory combined with the…

Strongly Correlated Electrons · Physics 2024-10-23 Henri Menke , Niklas Enderlein , Yi-Ting Tseng , Michel Bockstedte , Janina Maultzsch , Giorgio Sangiovanni , Philipp Hansmann

We present an explicit two-parameter family of finite-band Jacobi elliptic potentials for a non-self-adjoint Dirac operator which connects two previously known limiting cases in which the elliptic parameter is zero or one. A full…

Spectral Theory · Mathematics 2024-11-12 Gino Biondini , Xu-Dan Luo , Jeffrey Oregero , Alexander Tovbis

We study energy propagation along line-defects (edges) in 2D continuous, energy preserving periodic media. The unperturbed medium (bulk) is modeled by a honeycomb Schroedinger operator, which is periodic with respect to the triangular…

Mathematical Physics · Physics 2019-10-09 A. Drouot , M. I. Weinstein

The quasi-two-dimensional molecular semimetallic conductor $\alpha$-STF$_2$I$_3$ is isostructural with $\alpha$-ET$_2$I$_3$.The latter possesses a unique band structure showing a zero-gap state with Dirac cones under high pressure, whereas…

Materials Science · Physics 2020-01-09 Toshio Naito , Ryusei Doi , Yoshikazu Suzumura

In this article we investigate spectral properties of the coupling $H+V_\lambda$, where $H=-i\alpha\cdot\nabla +m\beta$ is the free Dirac operator in $\mathbb R^3$, $m>0$ and $V_\lambda$ is an electrostatic shell potential (which depends on…

Mathematical Physics · Physics 2016-06-22 Naiara Arrizabalaga , Albert Mas , Luis Vega

In this paper, new self-adjoint realizations of the Dirac operator in dimension two and three are introduced. It is shown that they may be associated with the formal expression $\mathcal{D}_0+|F\delta_\Sigma\rangle\langle G\delta_\Sigma|$,…

Mathematical Physics · Physics 2023-11-07 Lukáš Heriban , Matěj Tušek

Silicene, the two-dimensional allotrope of silicon, is predicted to exist in a low-buckled honeycomb lattice, characterized by semimetallic electronic bands with graphenelike energy-momentum dispersions around the Fermi level (represented…

Materials Science · Physics 2018-01-10 A. Sindona , A. Cupolillo , F. Alessandro , M. Pisarra , D. C. Coello Fiallos , S. M. Osman , L. S. Caputi

In [H. Ammari et al., Honeycomb-lattice Minnaert bubbles. arXiv:1811.03905], the existence of a Dirac dispersion cone in a bubbly honeycomb phononic crystal is shown. The aim of this paper is to prove that, near the Dirac points, the Bloch…

Analysis of PDEs · Mathematics 2020-10-14 Habib Ammari , Erik Orvehed Hiltunen , Sanghyeon Yu

The energy spectra for the tight-binding models on the Lieb and kagom\'e lattices both exhibit a flat band. We present a model which continuously interpolates between these two limits. The flat band located in the middle of the three-band…

Mesoscale and Nanoscale Physics · Physics 2020-01-31 Lih-King Lim , Jean-Noël Fuchs , Frédéric Piéchon , Gilles Montambaux

We present a thorough tight-binding analysis of the band structure of a wide variety of lattices belonging to the class of honeycomb and Kagome systems including several mixed forms combining both lattices. The band structure of these…

Strongly Correlated Electrons · Physics 2017-11-22 Cyrille Barreteau , Francois Ducastelle , Talal Mallah

A family of nanographene molecules called phenalenyl-tessellation molecules (PTMs) exhibits two types of zero modes: a $\sqrt{3} \times \sqrt{3}$ type that spreads over the entire molecule and a vacancy-localized type. A periodic system of…

Mesoscale and Nanoscale Physics · Physics 2025-06-10 Naoki Morishita , Kenshin Komatsu , Motoharu Kitatani , Koichi Kusakabe

Tight binding models like the Hubbard Hamiltonian are most often explored in the context of uniform intersite hopping $t$. The electron-electron interactions, if sufficiently large compared to this translationally invariant $t$, can give…

Strongly Correlated Electrons · Physics 2020-12-11 Chunhan Feng , Huaiming Guo , Richard T. Scalettar

We investigate the spectral properties of a differential elliptic operator on $H^1(\bar{\Omega}\cup \Sigma)$, where $\Omega$ is a smooth domain surrounded by a layer $\Sigma$. The thickness of the layer is given by $\varepsilon h$, where…

Analysis of PDEs · Mathematics 2026-04-09 Emanuele Cristoforoni , Federico Villone

The impact of projective lattice symmetry on electronic band structures has attracted significant attention in recent years, particularly in light of growing experimental studies of two-dimensional hexagonal materials in magnetic fields.…

Mesoscale and Nanoscale Physics · Physics 2026-05-12 Qi Gao , Wei Chen

The honeycomb supersolid state is predicted to form in a dipolar Bose-Einstein condensate with a planar confining potential. Our results for its excitation spectrum reveal the gapless bands and the emergence of Dirac points at the Brillouin…

Quantum Gases · Physics 2025-01-06 P. B. Blakie

We analyze the low-lying spectrum and eigenmodes of lattice Dirac operators with a twisted mass term. The twist term expels the eigenvalues from a strip in the complex plane and all eigenmodes obtain a non-vanishing matrix element with…

High Energy Physics - Lattice · Physics 2007-05-23 Christof Gattringer , Stefan Solbrig

Single-crystal x-ray diffraction studies with synchrotron radiation on the honeycomb iridate $\alpha$-Li$_{2}$IrO$_{3}$ reveal a pressure-induced structural phase transition with symmetry lowering from monoclinic to triclinic at a critical…

Silicene is a monolayer of silicon atoms forming a two-dimensional honeycomb lattice, which shares almost every remarkable property with graphene. The low energy structure of silicene is described by Dirac electrons with relatively large…

Mesoscale and Nanoscale Physics · Physics 2012-03-06 Motohiko Ezawa