QED Model of Resonance Phenomena in Quasionedimensional Multichain Qubit Systems with Axial Symmetry

TL;DR

This paper presents an analytical model for resonance phenomena in multichain quasionedimensional qubit systems with axial symmetry, predicting new spectral lines due to Rabi wave packet dynamics and linking organic conductor models to nanotube behavior.

Contribution

It provides the first analytical solution considering both intra- and interchain qubit couplings in such systems, revealing new optical spectral features.

Findings

Prediction of additional spectral lines due to Rabi wave packets

Analytical solution incorporating intra- and interchain couplings

Application of SSH model to nanotubes via 2D-1D transition

Abstract

The analytical solution of the task of the interaction of quantized EM-field with multichain quasionedimensional axially symmetric qubit system by taking into account both the intrachain and interchain qubit coupling has been obtained for the first time. The appearance of additional lines in optical spectra of quasionedimensional systems strongly interacting with EM-field is predicted. They are result of nonstationary registration conditions, to be consequence of Rabi wave packet formation and correspond to Fourier transformation of revival part of Rabi wave packets in temporal dependence of the integral inversion. It is argued the applicability of Su-Schrieffer-Heeger-model of organic conductors for perfect quasionedimensional carbon zigzag shaped nanotubes to be consequence of 2D-1D transition with diameter decrease.