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The Activation-Relaxation Technique (ARTn) is an efficient technique for finding the minima and saddle points of multidimensional functions such as the potential energy surface of atomic systems in chemistry. In this work we detail and illustrate significant improvements made to the algorithm, regarding both preprocessing and the activation process itself. As showcased, these advances significantly reduce ARTn computational costs, especially when applied with ab initio description. With these modifications, ARTn establishes itself as a very efficient method for exploring the energy landscape and chemical reactions associated with complex mechanisms.

Activation-Relaxation Technique: An efficient way to find minima and saddle points of potential energy surfaces / Jay, Antoine; Gunde, Miha; Salles, Nicolas; Poberznik, Matic; Martin-Samos, m Layla; Richard, Nicolas; de Gironcoli, Stefano; Mousseau, Normand; Hemeryck, Anne. - In: COMPUTATIONAL MATERIALS SCIENCE. - ISSN 0927-0256. - 209:(2022). [10.1016/j.commatsci.2022.111363]

Activation-Relaxation Technique: An efficient way to find minima and saddle points of potential energy surfaces

Jay, Antoine;Gunde, Miha;Salles, Nicolas;Poberznik, Matic;Martin-Samos,m Layla;Richard, Nicolas;de Gironcoli, Stefano;Mousseau, Normand;Hemeryck, Anne

2022-01-01

Abstract

The Activation-Relaxation Technique (ARTn) is an efficient technique for finding the minima and saddle points of multidimensional functions such as the potential energy surface of atomic systems in chemistry. In this work we detail and illustrate significant improvements made to the algorithm, regarding both preprocessing and the activation process itself. As showcased, these advances significantly reduce ARTn computational costs, especially when applied with ab initio description. With these modifications, ARTn establishes itself as a very efficient method for exploring the energy landscape and chemical reactions associated with complex mechanisms.

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	Anno
	
			2022
		
	Rivista
	
			COMPUTATIONAL MATERIALS SCIENCE
		
	Numero del volume
	
			209
		
	Numero di articolo
	
			111363
		
	Codice DOI
	
			https://dx.doi.org/10.1016/j.commatsci.2022.111363
		
	Tutti gli autori
	
			Jay, Antoine; Gunde, Miha; Salles, Nicolas; Poberznik, Matic; Martin-Samos, m Layla; Richard, Nicolas; de Gironcoli, Stefano; Mousseau, Normand; Hemeryck, Anne
		
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			1.1 Journal article

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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/20.500.11767/135711

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