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RESEARCH PRODUCT

Quantum Error Correction with magnetic molecules

José J. BaldovíJuan M. Clemente-juanSalvador Cardona‐serraGuillermo Mínguez EspallargasLuis Escalera-morenoAlejandro Gaita-ariño

subject

PhysicsQuantum PhysicsSpin statesSpectrum (functional analysis)FOS: Physical sciencesGeneral Physics and AstronomyTransition metalQuantum error correctionQuantum mechanicsQubitMoleculeQuantum algorithmQuantum Physics (quant-ph)Spin-½

description

Quantum algorithms often assume independent spin qubits to produce trivial $|\uparrow\rangle=|0\rangle$, $|\downarrow\rangle=|1\rangle$ mappings. This can be unrealistic in many solid-state implementations with sizeable magnetic interactions. Here we show that the lower part of the spectrum of a molecule containing three exchange-coupled metal ions with $S=1/2$ and $I=1/2$ is equivalent to nine electron-nuclear qubits. We derive the relation between spin states and qubit states in reasonable parameter ranges for the rare earth $^{159}$Tb$^{3+}$ and for the transition metal Cu$^{2+}$, and study the possibility to implement Shor's Quantum Error Correction code on such a molecule. We also discuss recently developed molecular systems that could be adequate from an experimental point of view.

yearjournalcountryeditionlanguage
2014-04-28EPL (Europhysics Letters)
https://doi.org/10.1209/0295-5075/110/33001