<p>This study, evaluates nano electrical LC-circuits that construct of advanced structures such as graphene as electrode and hexagonal Boron Nitride (Gr/h-BN/Gr) considered as induction matter that have the fundamental role in advancement nano electronics. In the such structures, the dead layer that is existing between layers similar to Gr and mid layer h-BN have introduced. Based on dead layers the negative quantum capacitor in nano capacitors are introduced and negative quantum inductance in nano inductors are investigated. The inductance of inductors in nano scale is found by theoretical calculations that we cannot achievement this formula by macroscopic standards. The quantum effects and inductance feature on inductors are studied specifically in nanoscale. We derived inductance in two states, with free current and without it. Finally, the electrical LC- circuit in nano scale are evaluated.</p>

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Negative quantum inductance and capacitance in nano electrical LC- circuit

  • M. Babamkhani Mamaghani,
  • H. Pahlavani,
  • A. Zamani

摘要

This study, evaluates nano electrical LC-circuits that construct of advanced structures such as graphene as electrode and hexagonal Boron Nitride (Gr/h-BN/Gr) considered as induction matter that have the fundamental role in advancement nano electronics. In the such structures, the dead layer that is existing between layers similar to Gr and mid layer h-BN have introduced. Based on dead layers the negative quantum capacitor in nano capacitors are introduced and negative quantum inductance in nano inductors are investigated. The inductance of inductors in nano scale is found by theoretical calculations that we cannot achievement this formula by macroscopic standards. The quantum effects and inductance feature on inductors are studied specifically in nanoscale. We derived inductance in two states, with free current and without it. Finally, the electrical LC- circuit in nano scale are evaluated.