Saved in:
Bibliographic Details
Main Author: Cudazzo, Pierluigi
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2502.03181
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1866910815224856576
author Cudazzo, Pierluigi
author_facet Cudazzo, Pierluigi
contents Collective charge excitations directly probed in electron energy loss and inelastic X rays scattering spectroscopies play a key role in different fields of condensed matter physics. Being induced by the long-range part of the Coulomb interaction between particles, in standard bulk systems they appear as well-defined features in the spectra associated to the zero crossing of the real part of the macroscopic dielectric function. However, this simple criterion cannot be used to identify collective excitations in low dimensional systems where the macroscopic dielectric function is not a well defined concept. In this work, we discuss how this problem can be traced back to the definition of the long-range Coulomb interaction and we show how the appropriate separation between long- and short-range Coulomb interaction allows one to correctly express the low dimensional macroscopic dielectric function in terms of microscopic quantities accessible in first-principles calculations. This allows disentangling collective charge excitations in low dimensional materials in analogy with what one does in standard bulk systems. In addition, we show how important macroscopic quantities, such as the screening length scale, can be extracted from full first principle calculations. As an illustrative example we perform a study of the screening effects and the collective excitations in prototypical 2D materials including metals (NbSe2) as well as semiconductors (BN and MoS2).
format Preprint
id arxiv_https___arxiv_org_abs_2502_03181
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Separation between long- and short-range part of the Coulomb interaction in low dimensional systems: implications for the macroscopic screening length and the collective charge excitations
Cudazzo, Pierluigi
Materials Science
Collective charge excitations directly probed in electron energy loss and inelastic X rays scattering spectroscopies play a key role in different fields of condensed matter physics. Being induced by the long-range part of the Coulomb interaction between particles, in standard bulk systems they appear as well-defined features in the spectra associated to the zero crossing of the real part of the macroscopic dielectric function. However, this simple criterion cannot be used to identify collective excitations in low dimensional systems where the macroscopic dielectric function is not a well defined concept. In this work, we discuss how this problem can be traced back to the definition of the long-range Coulomb interaction and we show how the appropriate separation between long- and short-range Coulomb interaction allows one to correctly express the low dimensional macroscopic dielectric function in terms of microscopic quantities accessible in first-principles calculations. This allows disentangling collective charge excitations in low dimensional materials in analogy with what one does in standard bulk systems. In addition, we show how important macroscopic quantities, such as the screening length scale, can be extracted from full first principle calculations. As an illustrative example we perform a study of the screening effects and the collective excitations in prototypical 2D materials including metals (NbSe2) as well as semiconductors (BN and MoS2).
title Separation between long- and short-range part of the Coulomb interaction in low dimensional systems: implications for the macroscopic screening length and the collective charge excitations
topic Materials Science
url https://arxiv.org/abs/2502.03181