Related papers: Quantum field theoretical framework for the electromagnetic response of graphene and dispersion relations with implications to the Casimir effect

Quantum field theoretical framework for the electromagnetic response of graphene and dispersion relations with implications to the Casimir effect

URL: http://arxiv.org/abs/2305.16762v1
Date: Fri, 26 May 2023 09:24:47 GMT
Title: Quantum field theoretical framework for the electromagnetic response of graphene and dispersion relations with implications to the Casimir effect
Authors: G. L. Klimchitskaya and V. M. Mostepanenko
Abstract summary: The spatially nonlocal response functions of graphene are considered in the areas of both the on-the-mass-shell and off-the-mass-shell waves. For the transverse permittivity, the form of an additional term arising in the dispersion relations due to the presence of a double pole is found.
Score: 0.0
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: The spatially nonlocal response functions of graphene obtained on the basis of first principles of quantum field theory using the polarization tensor are considered in the areas of both the on-the-mass-shell and off-the-mass-shell waves. It s shown that at zero frequency the longitudinal permittivity of graphene is the regular function, whereas the transverse one possesses a double pole for any nonzero wave vector. According to our results, both the longitudinal and transverse permittivities satisfy the dispersion (Kramers-Kronig) relations connecting their real and imaginary parts, as well as expressing each of these permittivities along the imaginary frequency axis via its imaginary part. For the transverse permittivity, the form of an additional term arising in the dispersion relations due to the presence of a double pole is found. The form of dispersion relations is unaffected by the branch points which arise on the real frequency axis in the presence of spatial nonlocality. The obtained results are discussed in connection with the well known problem of the Lifshitz theory which was found to be in conflict with the measurement data when using the much studied response function of metals. A possible way of attack on this problem based on the case of graphene is suggested.

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