Atomistic Insights into Ultrafast SiGe Nanoprocessing

[Image: see text] Controlling ultrafast material transformations with atomic precision is essential for future nanotechnology. Pulsed laser annealing (LA), inducing extremely rapid and localized phase transitions, is a powerful way to achieve this but requires careful optimization together with the...

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Autores principales: Calogero, Gaetano, Raciti, Domenica, Ricciarelli, Damiano, Acosta-Alba, Pablo, Cristiano, Fuccio, Daubriac, Richard, Demoulin, Remi, Deretzis, Ioannis, Fisicaro, Giuseppe, Hartmann, Jean-Michel, Kerdilès, Sébastien, La Magna, Antonino
Formato: Online Artículo Texto
Lenguaje:English
Publicado: American Chemical Society 2023
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10561275/
https://www.ncbi.nlm.nih.gov/pubmed/37817920
http://dx.doi.org/10.1021/acs.jpcc.3c05999
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author Calogero, Gaetano
Raciti, Domenica
Ricciarelli, Damiano
Acosta-Alba, Pablo
Cristiano, Fuccio
Daubriac, Richard
Demoulin, Remi
Deretzis, Ioannis
Fisicaro, Giuseppe
Hartmann, Jean-Michel
Kerdilès, Sébastien
La Magna, Antonino
author_facet Calogero, Gaetano
Raciti, Domenica
Ricciarelli, Damiano
Acosta-Alba, Pablo
Cristiano, Fuccio
Daubriac, Richard
Demoulin, Remi
Deretzis, Ioannis
Fisicaro, Giuseppe
Hartmann, Jean-Michel
Kerdilès, Sébastien
La Magna, Antonino
author_sort Calogero, Gaetano
collection PubMed
description [Image: see text] Controlling ultrafast material transformations with atomic precision is essential for future nanotechnology. Pulsed laser annealing (LA), inducing extremely rapid and localized phase transitions, is a powerful way to achieve this but requires careful optimization together with the appropriate system design. We present a multiscale LA computational framework that can simulate atom-by-atom the highly out-of-equilibrium kinetics of a material as it interacts with the laser, including effects of structural disorder. By seamlessly coupling a macroscale continuum solver to a nanoscale superlattice kinetic Monte Carlo code, this method overcomes the limits of state-of-the-art continuum-based tools. We exploit it to investigate nontrivial changes in composition, morphology, and quality of laser-annealed SiGe alloys. Validations against experiments and phase-field simulations as well as advanced applications to strained, defected, nanostructured, and confined SiGe are presented, highlighting the importance of a multiscale atomistic-continuum approach. Current applicability and potential generalization routes are finally discussed.
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spelling pubmed-105612752023-10-10 Atomistic Insights into Ultrafast SiGe Nanoprocessing Calogero, Gaetano Raciti, Domenica Ricciarelli, Damiano Acosta-Alba, Pablo Cristiano, Fuccio Daubriac, Richard Demoulin, Remi Deretzis, Ioannis Fisicaro, Giuseppe Hartmann, Jean-Michel Kerdilès, Sébastien La Magna, Antonino J Phys Chem C Nanomater Interfaces [Image: see text] Controlling ultrafast material transformations with atomic precision is essential for future nanotechnology. Pulsed laser annealing (LA), inducing extremely rapid and localized phase transitions, is a powerful way to achieve this but requires careful optimization together with the appropriate system design. We present a multiscale LA computational framework that can simulate atom-by-atom the highly out-of-equilibrium kinetics of a material as it interacts with the laser, including effects of structural disorder. By seamlessly coupling a macroscale continuum solver to a nanoscale superlattice kinetic Monte Carlo code, this method overcomes the limits of state-of-the-art continuum-based tools. We exploit it to investigate nontrivial changes in composition, morphology, and quality of laser-annealed SiGe alloys. Validations against experiments and phase-field simulations as well as advanced applications to strained, defected, nanostructured, and confined SiGe are presented, highlighting the importance of a multiscale atomistic-continuum approach. Current applicability and potential generalization routes are finally discussed. American Chemical Society 2023-09-27 /pmc/articles/PMC10561275/ /pubmed/37817920 http://dx.doi.org/10.1021/acs.jpcc.3c05999 Text en © 2023 The Authors. Published by American Chemical Society https://creativecommons.org/licenses/by/4.0/Permits the broadest form of re-use including for commercial purposes, provided that author attribution and integrity are maintained (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Calogero, Gaetano
Raciti, Domenica
Ricciarelli, Damiano
Acosta-Alba, Pablo
Cristiano, Fuccio
Daubriac, Richard
Demoulin, Remi
Deretzis, Ioannis
Fisicaro, Giuseppe
Hartmann, Jean-Michel
Kerdilès, Sébastien
La Magna, Antonino
Atomistic Insights into Ultrafast SiGe Nanoprocessing
title Atomistic Insights into Ultrafast SiGe Nanoprocessing
title_full Atomistic Insights into Ultrafast SiGe Nanoprocessing
title_fullStr Atomistic Insights into Ultrafast SiGe Nanoprocessing
title_full_unstemmed Atomistic Insights into Ultrafast SiGe Nanoprocessing
title_short Atomistic Insights into Ultrafast SiGe Nanoprocessing
title_sort atomistic insights into ultrafast sige nanoprocessing
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10561275/
https://www.ncbi.nlm.nih.gov/pubmed/37817920
http://dx.doi.org/10.1021/acs.jpcc.3c05999
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