Quantum gates implementations in the separated ion-traps by fast laser pulses

TL;DR

This paper proposes a non-adiabatic method using fast laser pulses to implement universal quantum gates between ions in separated traps, potentially enabling scalable quantum computing.

Contribution

It introduces a novel non-adiabatic approach for ion-ion coupling using fast laser pulses, replacing traditional adiabatic methods.

Findings

Switchable couplings achieved non-adiabatically

Quantum gates implemented with laser pulse sequences

Potential for scalable ion-trap quantum computation

Abstract

An approach is proposed to implement the universal quantum gates between the ions confined individually in the separated traps. Instead of the typical adiabatic operations, performed for manipulating the ion-ion coupling, here the switchable couplings between ions are implemented non-adiabatically by using the fast laser pulses. Consequently, the desirable quantum gates between the ions could be implemented by using only a series of laser pulses. The proposal may be conveniently generalized to the quantum computation with the scalable ion-traps.