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Molecular spins for quantum computation
Spins in solids or in molecules possess discrete energy levels, and the associated quantum
states can be tuned and coherently manipulated by means of external electromagnetic …
states can be tuned and coherently manipulated by means of external electromagnetic …
Molecular nanomagnets: a viable path toward quantum information processing?
Molecular nanomagnets (MNMs), molecules containing interacting spins, have been a
playground for quantum mechanics. They are characterized by many accessible low-energy …
playground for quantum mechanics. They are characterized by many accessible low-energy …
Spin dynamics in single-molecule magnets and molecular qubits
Over recent decades, much effort has been made to lengthen spin relaxation/decoherence
times of single-molecule magnets and molecular qubits by following different chemical …
times of single-molecule magnets and molecular qubits by following different chemical …
Trigonal Bipyramidal V3+ Complex as an Optically Addressable Molecular Qubit Candidate
Synthetic chemistry enables a bottom-up approach to quantum information science, where
atoms can be deterministically positioned in a quantum bit or qubit. Two key requirements to …
atoms can be deterministically positioned in a quantum bit or qubit. Two key requirements to …
Tunable spin–superconductor coupling of spin 1/2 vanadyl phthalocyanine molecules
Atomic-scale magnetic moments in contact with superconductors host rich physics based on
the emergence of Yu–Shiba–Rusinov (YSR) magnetic bound states within the …
the emergence of Yu–Shiba–Rusinov (YSR) magnetic bound states within the …
Granular aluminium nanojunction fluxonium qubit
Mesoscopic Josephson junctions, consisting of overlap** superconducting electrodes
separated by a nanometre-thin oxide layer, provide a precious source of nonlinearity for …
separated by a nanometre-thin oxide layer, provide a precious source of nonlinearity for …
Toward molecular spin qubit devices: Integration of magnetic molecules into solid-state devices
We review the progress made in integrating magnetic molecules containing transition metal
ions into nanoelectronic solid-state devices and using them as molecular spin qubits …
ions into nanoelectronic solid-state devices and using them as molecular spin qubits …
Quantum sensing of magnetic fields with molecular spins
Spins are prototypical systems with the potential to probe magnetic fields down to the atomic
scale limit. Exploiting their quantum nature through appropriate sensing protocols allows to …
scale limit. Exploiting their quantum nature through appropriate sensing protocols allows to …
Deconvolving contributions to decoherence in molecular electron spin qubits: A dynamic ligand field approach
In the past decade, transition metal complexes have gained momentum as electron spin‐
based quantum bit (qubit) candidates due to their synthetic tunability and long achievable …
based quantum bit (qubit) candidates due to their synthetic tunability and long achievable …
Enhanced molecular spin-photon coupling at superconducting nanoconstrictions
We combine top-down and bottom-up nanolithography to optimize the coupling of small
molecular spin ensembles to 1.4 GHz on-chip superconducting resonators. Nanoscopic …
molecular spin ensembles to 1.4 GHz on-chip superconducting resonators. Nanoscopic …