Pauling’s resonating valence bond theory of metals: some studies on lithium clusters

Mohallem, José R.; Vianna, Reinaldo O.; Quintão, Andréa D.; Pavão, Antonio C.; McWeeny, R.

doi:10.1007/s004600050344

Cited by 16 publications

(23 citation statements)

References 16 publications

Supporting

Mentioning

Contrasting

Unclassified

Order By: Relevance

“…25 Diffusion quantum Monte Carlo simulations of Li clusters show that RVB pairing correlations between electrons provide a substantial contribution to the cohesive energy. 26 Elsewhere, 27 valence-bond studies of aspects of electron conduction along a linear chain of lithium atoms have been reported.…”

Section: Discussionmentioning

confidence: 99%

Charge transfer on the metallic atom-pair bond and the bond energy

Rajasekharan

Seshubai

2011

J. Mater. Res.

View full text Add to dashboard Cite

Following our recent report demonstrating the significance of the nearest-neighbor unlike atom-pair bond in metallic alloys, an equation for the energy of such a bond is presented in this study. The success of empirically derived Miedema's equation in predicting the signs of the heats of formation of metallic alloys is explained. The negative contribution to the energy stems from the ionicity in the bond. The charge transfer on the bond, suggested by Pauling to establish electroneutrality, contributes the positive term which is quantified in this study. The value of Miedema's empirically derived constant (Q/P) 1/2 and the origin of the R/P term follow from the present model. It is shown that the energy of the atom-pair bond, calculated using the model, in the compounds of MgCu 2 structure type are directly correlated to the experimental heats of formation of the compounds, and this fact enables the prediction of the heats of formation values for new compounds of the same structure type.

show abstract

Section: Discussionmentioning

confidence: 99%

Charge transfer on the metallic atom-pair bond and the bond energy

Rajasekharan

Seshubai

2011

J. Mater. Res.

View full text Add to dashboard Cite

show abstract

“…A idéia intuitiva da ressonância não-sincronizada foi empregada por Pauling no estudo de uma série de processos que envolvem a transferência de elétron [91,93,95], incluindo a supercondutividade [97][98][99][100][101]. Diversos trabalhos atualmente confirmam as idéias de Pauling, as quais vêm sendo aplicadas ao estudo de casos variados como carcinogênese química [102], mecanismo de interação de moléculas com superfícies metálicas [103], condutividade elétrica no lítio [104], formação e estabilidade do O 4 [105], magnetismo [106], estrutura de metais, ligas e compostos intermetálicos [107], condutividade elétrica em sistema orgânicos 1D [108] e não menos interessante, a supercondutividade [109].…”

Section: Os Laureados Com O Nobelunclassified

“…Mesmo não tendo alcançado popularidade equivalenteà de outras teorias, a amplitude de aplicações da teoria RVB vêm produzindo resultados satisfatórios em diferentesáreas, o que ajuda a corroborar sua proposta [97][98][99][100][101][102][103][104][105][106][107][108][109]. A aplicação dos conceitos da teoria RVB ao estado supercondutor abre um novo leque de possibilidades em pesquisa, cujo potencial ainda não tem sido plenamente explorado.…”

Section: Os Laureados Com O Nobelunclassified

Supercondutividade: um século de desafios e superação

Costa

Pavão

2012

Rev. Bras. Ensino Fís.

View full text Add to dashboard Cite

Um século após a descoberta deste fascinante fenômeno, a supercondutividade continua sendo um campo de pesquisa atual e vem contribuindo de modo significativo para o desenvolvimento científico e tecnológico. Apesar de muitos desafios terem sido superados ao longo destes anos, dois permanecem notavelmente destacados: a) o desenvolvimento de uma teoria microscópica ab initio (de primeiros princípios) que seja capaz de explicar a supercondutividade em qualquer intervalo de temperatura e b) a obtenção de um material que seja supercondutor a temperatura ambiente ou em temperatura maior que a ambiente. Depois de 5 prêmios Nobel em Física terem sido concedidos a pesquisadores desta área, é possível conjeturar que mais serão entregues aos que superarem os desafios destacados acima. Apresentamos uma sucinta discussão concernente aos principais acontecimentos relacionados à supercondutividade: sua descoberta, os materiais, as teorias propostas, os protagonistas e os avanços tecnológicos. Em um universo ocupado quase que exclusivamente por físicos teóricos e experimentais, destacamos a pouco conhecida contribuição do físico-químico americano Linus Pauling, que propôs um modelo simples e eficiente para a descrição da supercondutividade baseado em sua teoria da ressonância não-sincronizada das ligações covalentes (RVB). Estes importantes aspectos são apresentados e discutidos.

show abstract

“…The atomic orbitals are then optimized in order to minimize the total energy. We do not intend here to compare them with CI calculations of the literature since we have shown in a previous work [24] that, for metallic systems, Pauling's RVB theory [25] must be used to properly account for the correlation. This means that structures other than the common covalent and ionic Kekule`ones should appear in the VB wavefunction.…”

Section: Generation Of a Compact And Efficient Basis Set For LI Clumentioning

confidence: 99%

Gaussian integral transforms of unconventional functions: contracted basis functions appropriate to molecules and metallic clusters

Bastone

Quintão

Vianna

et al. 1997

Z Phys D - Atoms, Molecules and Clusters

View full text Add to dashboard Cite

We report the development of new gaussian integral transforms one-electron functions. A straightforward recipe to generate gaussian contractions of these functions is introduced. The applications call into question the disseminated belief of the superiority of Slater type orbitals (STO) in molecular calculations. A first successful application of the Bessel K J (qr) function to a molecular system is presented. One of the integral transforms that yields the 0s function is used to generate contractions that have a better performance than the STO ones in cases that diffuse functions are needed. Applications are presented to some Li L clusters and a new conformation of the Li cluster is then proposed. PACS: 31.15.-p; 36.40.-c; 36.40.Mr I Introduction Integral transform (IT) wavefunctions have been used in many ways in quantum chemical calculations. In particular, to generate one-electron wavefunctions we can devise mainly three approaches in the literature. First, the works of Kikuchi [1] and Shavitt and Karplus [2], in the early 50's and 60's, intended to explore the IT of gaussians to STO's in order to calculate the matrix elements with the former while working, in fact, with the later, through further multidimensional integrations over the exponent spaces. Second, in the 70's Somorjai and Bishop, among others [3], used new forms of IT's of gaussians and exponential functions to generate new orbital functions. Finally, one of us has, more recently, explored the variational determination of the weight functions of the gaussian and exponential IT's to present an approach refered to as the generator-coordinate-Hartree-Fock (GCHF) method [4], recalling the generator coordinate method of nuclear physics developed by Wheeler and colaborators [5]. In spite of the fact that an IT of gaussians to STO's had been used by Huzinaga [6] as an argument for the contraction schemes widespreadly used in quantum chemical calculations, the procedures to get these contractions have nothing to do with the IT's themselves. On the contrary, they are based on least squares or maximum overlap techniques [7], or more sophisticated approaches that involves previous Hartree-Fock (HF) calculations [8].The rapid development of computers is going to overpass one of the bottlenecks of quantum chemical molecular calculations, say the storage of molecular integrals over gaussian functions. In the present days it is possible, at least for a limited size set of systems, to work with basis functions that are contractions of a large number of gaussians, in place of the traditional contractions.For larger contractions, the usual techniques cited above may become numerically problematic. New recipes for contractions are thus in order, mainly in cases they are numerically simple, as the one we are presenting.In this work we show that the IT of gaussians can be used to generate useful contractions. New gaussian IT's are developed and one in particular, the 0s IT is proved to be useful in calculations where diffuse basis functions are needed. Applications wi...

show abstract

Pauling’s resonating valence bond theory of metals: some studies on lithium clusters

Cited by 16 publications

References 16 publications

Charge transfer on the metallic atom-pair bond and the bond energy

Charge transfer on the metallic atom-pair bond and the bond energy

Supercondutividade: um século de desafios e superação

Gaussian integral transforms of unconventional functions: contracted basis functions appropriate to molecules and metallic clusters

Contact Info

Product

Resources

About