Universal quantum computer based on Carbon Nanotube Rotators

TL;DR

This paper introduces a universal quantum computing scheme using a chain of carbon nanotube rotators, where qubits are encoded in rotational angles and quantum gates are implemented via electrostatic control.

Contribution

It proposes a novel quantum computing architecture based on carbon nanotube rotators, demonstrating how to realize universal quantum gates through electrostatic manipulation.

Findings

Constructed a universal set of quantum gates using nanotube rotators.

Encoded qubits in rotational angles of nanotube rotators.

Showed feasibility of controlling gates via voltage adjustments.

Abstract

We propose a universal quantum computer based on a chain of carbon nanotube rotators where one metallic plate is attached to each rotator. The dynamical variable is the rotational angle $\phi$. The attached plate connected to ground electrostatically interacts with two fixed plates. Two angle positions $\phi =0,\pi$ are made stable by applying a voltage difference between the attached plate and the two fixed plates. We assign $\phi =0$ and $\pi $ to the qubit states $|0\rangle$ and $|1\rangle $. Then, considering a chain of rotators, we construct the arbitrary phase-shift gate, the NOT gate and the Ising gate, which constitute a set of universal quantum gates. They are executed by controlling the voltage between various plates.