Constructing clock-transition-based two-qubit gates from dimers of molecular nanomagnets
Charles A. Collett, Paolo Santini, Stefano Carretta, Jonathan R. Friedman
Abstract
This work presents a theoretical scheme for implementing clock-transition-based quantum gates in a molecular nanomagnet heterodimer, enabling the realization of one- and two-qubit gates with high fidelities.
Topics & Concepts
NanomagnetPhysicsRealization (probability)Quantum gateLogic gateQuantum dotComputer scienceQuantum computerNOR logicWork (physics)NanotechnologyQuantumScheme (mathematics)Quantum mechanicsMaterials scienceKey (lock)Quantum logicChemistryAND-OR-InvertQuantum dot cellular automatonXNOR gateBoolean functionMagnetism in coordination complexesQuantum-Dot Cellular AutomataQuantum optics and atomic interactions