Even-Balanced States Excitation in Two-Qubits System

TL;DR

This paper introduces a Dirac picture-based theoretical framework and simulation approach for preparing even-balanced quantum states in two-qubit systems, demonstrating improved control and accuracy in entanglement management.

Contribution

It extends previous analyses by applying the Dirac picture method to two-qubit systems, providing a new approach for state preparation in quantum computing.

Findings

Simulation results agree within 0.2% with theoretical calculations.

The method effectively drives two qubits into an even-balanced state.

Demonstrates improved control over entangled states.

Abstract

An essential step in building a quantum computer system is combining two qubits. Previous theoretical analyses of this element have been based primarily on the short schematic matrix approaches. In the present work we extend the investigation to the combination of two qubits by implementing the Dirac picture method as a theoretical framework. We conduct simulations, using parameters of grAl qubits, to demonstrate the feasibility of driving two qubits into an even-balanced quantum state. The research highlights the effectiveness of the Dirac picture method in achieving the desired state, enabling improved control of entangled states and advanced quantum computing research. The simulation results and the theoretical calculations agree within of 0.2%, and the two examples at section IV, show a good agreement to the level of 6% error from the even balanced state