• EERDUNCHAOLU

      Articles written in Pramana – Journal of Physics

    • Influence of the dispersion coefficient and dielectric constant ratio on the asymmetric Gaussian potential quantum dot qubit with electromagnetic field

      WUYUNQIMUGE WEI XIN LIU XIAO-XU EERDUNCHAOLU

      More Details Abstract Fulltext PDF

      Selecting the asymmetric Gaussian (AG) potential to describe the confinement of electron in a disk-shaped quantum dot (QD), the ground state and the first excited state energy and wave function of the system are derived by using the Lee–Low–Pines (LLP) Pekar transformation variational method, and the two-level structure required for a qubit is constructed. The influence of material parameters such as the dispersion coefficient, dielectric constant ratio and electron–phonon coupling constant on the qubit properties of AG potential QD with the electromagnetic field are investigated. The results show that the electric field and magnetic field have opposite adjustment functions for the formation of qubit. The electric field is advantageous for the qubit survival and information storage, while magnetic field and electron–phonon coupling are detrimental to the qubit survival and information storage, respectively. The decoherence time of the qubit increases with increasing magnetic field cyclotron frequency ‘from the turning point’. Applying an electric field, increasing the dielectric constant ratio, the dispersion coefficient and the electron–phonon coupling constant of the materials are all beneficial to improve the coherence of the qubit.

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