Adiabatic quantum search with atoms in a cavity driven by lasers

TL;DR

This paper presents a method to implement quantum search using adiabatic passage in a cavity-atom system, achieving Grover speedup with potential for scalable quantum computing.

Contribution

It introduces a novel adiabatic quantum search protocol using cavity-driven atoms, demonstrating speedup and decoherence-free operation.

Findings

Achieves quantum search with Grover speedup

Uses a cavity-laser-atom system with three-level atoms

Operates within a decoherence-free adiabatic subspace

Abstract

We propose an implementation of the quantum search algorithm of a marked item in an unsorted list of N items by adiabatic passage in a cavity-laser-atom system. We use an ensemble of N identical three-level atoms trapped in a single-mode cavity and driven by two lasers. In each atom, the same level represents a database entry. One of the atoms is marked by having an energy gap between its two ground states. Appropriate time delays between the two laser pulses allow one to populate the marked state starting from an initial entangled state within a decoherence-free adiabatic subspace. The time to achieve such a process is shown to exhibit the Grover speedup.