Descriptor: "metal surfaces" / Topic: atoms - Searchworks@Jio Institute Digital Library Search Results

Author: Ozawa, N., Roman, T.A., Nakanishi, H., and Kasai, H.
Subjects: *HYDROGEN, *QUANTUM chemistry, *ATOMS, *DENSITY functionals
Abstract: Abstract: We investigate the quantum mechanical behavior of adsorbed hydrogen (H, D, T) on Cu(100) and (110) surfaces. We construct potential energy surfaces (PESs) for the motion of the hydrogen H atom on Cu(100) and (110) surfaces within the framework of density functional theory. The potential energy takes a minimum value on the hollow site of Cu(100) and on the short bridge site of Cu(110). Moreover, we calculate the quantum states of hydrogen atom motion on these calculated PESs. The ground state wave function of the hydrogen atom motion is strongly localized around the hollow site on the Cu(100) surface. On the other hand, the ground state wave function of the hydrogen atom motion on Cu(110) is distributed from the short bridge site to two neighboring pseudo-threefold sites. We finally show isotope effects on the quantum states of the motion of hydrogen on both surfaces. [Copyright &y& Elsevier]
Published: 2006
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Author: Heid, R. and Bohnen, K.-P.
Subjects: *CHEMICAL bonds, *SOLIDS, *ATOMS, *LATTICE dynamics
Abstract: Dynamical properties of atoms on surfaces depend sensitively on their bonding environment and thus provide valuable insight into the local geometry and chemical binding at the boundary of a solid. Density-functional theory provides a unified approach to the calculation of structural and dynamical properties from first principles. Its high accuracy and predictive power for lattice dynamical properties of semiconductor surfaces has been demonstrated in a previous article by Fritsch and Schro¨der (Phys. Rep. 309 (1999) 209). In this report, we review the state-of-the-art of these ab initio approaches to surface dynamical properties of metal surfaces. We give a brief introduction to the conceptual framework with focus on recent advances in computational procedures for the ab initio linear-response approach, which have been a prerequisite for an efficient treatment of surface dynamics of noble and transition metals. The discussed applications to clean and adsorbate-covered surfaces demonstrate the high accuracy and reliability of this approach in predicting detailed microscopic properties of the phonon dynamics for a wide range of metallic surfaces. [Copyright &y& Elsevier]
Published: 2003
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Author: Rosei, F., Schunack, M., Jiang, P., Gourdon, A., Lægsgaard, E., Stensgaard, I., Joachim, C., and Besenbacher, F.
Published: 2002

Author: Yao, Yunxi, Fu, Qiang, Zhang, Y. Y., Weng, Xuefei, Li, Huan, Chen, Mingshu, Jin, Li, Dong, Aiyi, Mu, Rentao, Jiang, Peng, Liu, Li, Bluhm, Hendrik, Liu, Zhi, Zhang, S. B., and Bao, Xinhe
Published: 2014

Author: Zhang, Tian, Ma, Zhongyun, Wang, Linjun, Xi, Jinyang, and Shuai, Zhigang
Published: 2014

Author: Bartels, Nils, Golibrzuch, Kai, Bartels, Christof, Li Chen, Auerbach, Daniel J., Wodtke, Alec M., and Schäfer, Tim
Published: 2013

Author: Tedsree, Karaked, Chan, Chun Wong Aaron, Jones, Simon, Cuan, Qian, Li, Wei-Kun, Gong, Xue-Qing, and Tsang, Shik Chi Edman
Published: 2011
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Author: Muiño, R. Díez, Sánchez-Portal, D., Silkin, V. M., Chulkov, E. V., Echenique, P. M., and Yates, John T.
Published: 2011

Author: Bandy, B. J., Chesters, M. A., James, D. I., McDougall, G. S., Pemble, M. E., Sheppard, N., Wong, J., Bond, G. C., Roberts, M. W., and Yates, J. T.
Published: 1986