Biblioteca Digital

**Autoria(s):** Zhang, Hong; Smith, Sean C.
Data(s)	01/01/2004
Resumo	We give a selective review of quantum mechanical methods for calculating and characterizing resonances in small molecular systems, with an emphasis on recent progress in Chebyshev and Lanczos iterative methods. Two archetypal molecular systems are discussed: isolated resonances in HCO, which exhibit regular mode and state specificity, and overlapping resonances in strongly bound HO2, which exhibit irregular and chaotic behavior. Recent progresses for non-zero total angular momentum J calculations of resonances including parallel computing models are also included and future directions in this field are discussed.
Identificador	http://espace.library.uq.edu.au/view/UQ:72346
Idioma(s)	eng
Publicador	Royal Society of Chemistry
Palavras-Chave	#Chemistry, Physical #Physics, Atomic, Molecular & Chemical #Product State Distributions #Total Angular-momentum #Subspace Filter Diagonalization #Dependent Schrodinger-equation #Boundary Inhomogeneity Method #Lanczos Subspace #Scattering Calculations #Reactive Scattering #Mechanical Calculations #Calculating Resonances #C1 #250603 Reaction Kinetics and Dynamics #780103 Chemical sciences
Tipo	Journal Article

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