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Bibliographic Details
Main Author: Baroni, Stefano
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2410.11809
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author Baroni, Stefano
author_facet Baroni, Stefano
contents The theory of band offsets at semiconductor interfaces has been one of Alfonso Baldereschi most cherished topics, to which he has made significant contributions, both directly and by enticing peers and disciples, including myself, to delve deeply into it. In this tribute, I recount how a brilliant idea of his for modeling band offsets in a class of semiconductor heterojunctions led to one of our most cited works and brought about the birth of pseudopotential alchemy. This model provides a powerful tool to both compute and fathom the electronic and structural properties of composite semiconductors, such as heterojunctions and alloys, by treating them as small perturbations with respect to a virtual crystal, a system in which different chemical elements occupying crystallographically equivalent lattice sites are represented by an average pseudopotential. This note is intended as a tribute to the fond memories I have of the time spent with, and the science learned from, Alfonso. No attempt will be made at bibliographic completeness in the niche field of pseudopotential alchemy, let alone the much broader one of semiconductor heterojunctions.
format Preprint
id arxiv_https___arxiv_org_abs_2410_11809
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Birth and ephemeral life of pseudopotential alchemy
Baroni, Stefano
Materials Science
History and Philosophy of Physics
The theory of band offsets at semiconductor interfaces has been one of Alfonso Baldereschi most cherished topics, to which he has made significant contributions, both directly and by enticing peers and disciples, including myself, to delve deeply into it. In this tribute, I recount how a brilliant idea of his for modeling band offsets in a class of semiconductor heterojunctions led to one of our most cited works and brought about the birth of pseudopotential alchemy. This model provides a powerful tool to both compute and fathom the electronic and structural properties of composite semiconductors, such as heterojunctions and alloys, by treating them as small perturbations with respect to a virtual crystal, a system in which different chemical elements occupying crystallographically equivalent lattice sites are represented by an average pseudopotential. This note is intended as a tribute to the fond memories I have of the time spent with, and the science learned from, Alfonso. No attempt will be made at bibliographic completeness in the niche field of pseudopotential alchemy, let alone the much broader one of semiconductor heterojunctions.
title Birth and ephemeral life of pseudopotential alchemy
topic Materials Science
History and Philosophy of Physics
url https://arxiv.org/abs/2410.11809