Modeling quantum information dynamics achieved with time-dependent driven fields in the context of universal quantum processing

TL;DR

This paper explores how time-dependent driven fields can be modeled to facilitate quantum information processing, aiming towards a universal quantum computation framework using realistic field controls.

Contribution

It introduces a modeling approach for quantum information operations driven by time-dependent fields suitable for practical implementation.

Findings

Provides a framework for modeling quantum operations with realistic fields.

Analyzes complex dynamics of two-level systems with entangling interactions.

Supports development of universal quantum processing models.

Abstract

Quantum information is a useful resource to set up information processing. Despite physical components are normally two-level systems, their combination with entangling interactions becomes in a complex dynamics. Studied for piecewise field pulses, this work analyzes the modeling for quantum information operations with fields affordable technologically towards a universal quantum computation model.