Yu. V. Churkin scite author profile

The van der Waals and Casimir-Polder interaction of different atoms with graphene is investigated using the Dirac model which assumes that the energy of quasiparticles is linear with respect to the momentum. The obtained results for the van der Waals coefficients of hydrogen atoms and molecules and atoms of metastable He * and Na as a function of separation are compared with respective results found using the hydrodynamic model of graphene. It is shown that, regardless of the value of the gap parameter, the Dirac model leads to much smaller values of the van der Waals coefficients than the hydrodynamic model. The experiment on quantum reflection of metastable He * and Na atoms on graphene is proposed which is capable to discriminate between the two models of the electronic structure of graphene. In this respect the parameters of the phenomenological potential for both these atoms interacting with graphene described by different models are determined.

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Dispersion Interaction of Atoms With Single-Walled Carbon Nanotubes Described by the Dirac Model

Churkin

Fedortsov

Yurova

2011

Int. J. Mod. Phys. Conf. Ser.

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We calculate the interaction energy and force between atoms and molecules and single-walled carbon nanotubes described by the Dirac model of graphene. For this purpose the Lifshitz-type formulas adapted for the case of cylindrical geometry with the help of the proximity force approximation are used. The results obtained are compared with those derived from the hydrodymanic model of graphene. Numerical computations are performed for hydrogen atoms and molecules. It is shown that the Dirac model leads to larger values of the van der Waals force than the hydrodynamic model. For a hydrogen molecule the interaction energy and force computed using both models are larger than for a hydrogen atom.

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Casimir force pressure on the insulating layer in metal-insulator-semiconductor structures

Fedortsov¹,

Churkin²,

Yurova³

2011

Phys. Solid State

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Excess carrier lifetime measurements in indium antimonide using a contactless laser technique

Fedortsov

Letenko

Churkin

et al. 1993

J Mater Sci: Mater Electron

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Dispersion Interaction of Atoms With Single-Walled Carbon Nanotubes Described by the Dirac Model

Churkin

Fedortsov

Yurova

2011

Int. J. Mod. Phys. A

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We calculate the interaction energy and force between atoms and molecules and singlewalled carbon nanotubes described by the Dirac model of graphene. For this purpose the Lifshitz-type formulas adapted for the case of cylindrical geometry with the help of the proximity force approximation are used. The results obtained are compared with those derived from the hydrodymanic model of graphene. Numerical computations are performed for hydrogen atoms and molecules. It is shown that the Dirac model leads to larger values of the van der Waals force than the hydrodynamic model. For a hydrogen molecule the interaction energy and force computed using both models are larger than for a hydrogen atom.

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Yu. V. Churkin

Comparison of hydrodynamic and Dirac models of dispersion interaction between graphene and H,He∗, or Na atoms

Dispersion Interaction of Atoms With Single-Walled Carbon Nanotubes Described by the Dirac Model

Casimir force pressure on the insulating layer in metal-insulator-semiconductor structures

Excess carrier lifetime measurements in indium antimonide using a contactless laser technique

Dispersion Interaction of Atoms With Single-Walled Carbon Nanotubes Described by the Dirac Model

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