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 …
Chirality‐Induced Spin Selectivity: An Enabling Technology for Quantum Applications
A Chiesa, A Privitera, E Macaluso… - Advanced …, 2023 - Wiley Online Library
Molecular spins are promising building blocks of future quantum technologies thanks to the
unparalleled flexibility provided by chemistry, which allows the design of complex structures …
unparalleled flexibility provided by chemistry, which allows the design of complex structures …
Metalloporphyrins as building blocks for quantum information science
F Santanni, A Privitera - Advanced Optical Materials, 2024 - Wiley Online Library
The intrinsic quantum nature of molecules opens exciting opportunities for developing the
field of quantum information science. In this context, porphyrins stand out as ideal building …
field of quantum information science. In this context, porphyrins stand out as ideal building …
A perspective on scaling up quantum computation with molecular spins
Artificial magnetic molecules can contribute to progressing toward large scale quantum
computation by (a) integrating multiple quantum resources and (b) reducing the …
computation by (a) integrating multiple quantum resources and (b) reducing the …
The critical role of ultra-low-energy vibrations in the relaxation dynamics of molecular qubits
Improving the performance of molecular qubits is a fundamental milestone towards
unleashing the power of molecular magnetism in the second quantum revolution. Taming …
unleashing the power of molecular magnetism in the second quantum revolution. Taming …
Proof-of-Concept Quantum Simulator Based on Molecular Spin Qudits
The use of d-level qudits instead of two-level qubits can largely increase the power of
quantum logic for many applications, ranging from quantum simulations to quantum error …
quantum logic for many applications, ranging from quantum simulations to quantum error …
Universal qudit gate synthesis for transmons
Gate-based quantum computers typically encode and process information in two-
dimensional units called qubits. Using d-dimensional qudits instead may offer intrinsic …
dimensional units called qubits. Using d-dimensional qudits instead may offer intrinsic …
Enhancing Coherence Times of Chromophore-Radical Molecular Qubits and Qudits by Rational Design
An important criterion for quantum operations is long qubit coherence times. To elucidate the
influence of molecular structure on the coherence times of molecular spin qubits and qudits …
influence of molecular structure on the coherence times of molecular spin qubits and qudits …
Navigating the 16-dimensional Hilbert space of a high-spin donor qudit with electric and magnetic fields
Efficient scaling and flexible control are key aspects of useful quantum computing hardware.
Spins in semiconductors combine quantum information processing with electrons, holes or …
Spins in semiconductors combine quantum information processing with electrons, holes or …
Blueprint for a molecular-spin quantum processor
The implementation of a universal quantum processor still poses fundamental issues related
to error mitigation and correction, which demand investigation of also platforms and …
to error mitigation and correction, which demand investigation of also platforms and …