# Parametric Oscillation and amplification with gate controlled   capacitor-within-capacitor

**Authors:** H. Grebel

arXiv: 1907.08555 · 2020-07-29

## TL;DR

This paper introduces a novel capacitor-within-capacitor structure with doped nano-graphene junctions, enabling electronically and chemically tunable parametric oscillation and amplification.

## Contribution

It presents a new capacitor-within-capacitor design with doped nano-graphene junctions for tunable parametric oscillation and amplification.

## Key findings

- Demonstrated diode-interfaced parametric oscillations
- Achieved electronically controlled doping of nano-graphene junctions
- Showed potential for tunable amplification applications

## Abstract

A Capacitor-within-Capacitor (CWC) is a nested electronic element that has two components: the cell (e.g., the outer capacitor) and the gate (e.g., the inner capacitor). The designations for the gate and cell may be interchanged. Here, an analysis and experimentation on a diode-interfaced parametric oscillations and amplification are described. By replacing the diode with a junction, made of doped nano-graphene films, we demonstrated a new structure whose doping may be electronically and chemically controlled.

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Source: https://tomesphere.com/paper/1907.08555