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A molecular dynamics of cold neutral atoms captured by carbon nanotube under electric field and thermal effect as a selective atoms sensor

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American Scientific Publishers (ASP)

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Here we analyzed several physical behaviors through computational simulation of systems consisting of a zig–zag type carbon nanotube and relaxed cold atoms (Rb, Au, Si and Ar). These atoms were chosen due to their different chemical properties. The atoms individually were relaxed on the outside of the nanotube during the simulations. Each system was found under the influence of a uniform electric field parallel to the carbon nanotube and under the thermal effect of the initial temperature at the simulations. Because of the electric field, the cold atoms orbited the carbon nanotube while increasing the initial temperature allowed the variation of the radius of the orbiting atoms. We calculated the following quantities: kinetic energy, potential energy and total energy and in situ temperature, molar entropy variation and average radius of the orbit of the atoms. Our data suggest that only the action of electric field is enough to generate the attractive potential and this system could be used as a selected atoms sensor.

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SANTOS, E. C. et al. A molecular dynamics of cold neutral atoms captured by carbon nanotube under electric field and thermal effect as a selective atoms sensor. Journal of Nanoscience and Nanotechnology, [S.l.], v. 15, n. 5, p. 3677-3680, May 2015. DOI: 10.1166/jnn.2015.9491.

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