Quantum Coherence Enhancement Through Control of Metal-Ligand Covalency: Modulating Spin-Orbit coupling in Isostructural Molecular Qubits | Synapse
April 1, 2026Open Access
Quantum Coherence Enhancement Through Control of Metal-Ligand Covalency: Modulating Spin-Orbit coupling in Isostructural Molecular Qubits
Key Points
The aim is to enhance quantum coherence by controlling metal-ligand covalency and spin-orbit coupling in molecular qubits.
Manipulated metal-ligand interactions in molecular structures.
Controlled spin-orbit coupling to affect quantum behavior.
Examined isostructural molecular qubits for coherence improvement.
Demonstrated enhanced quantum coherence in controlled systems.
Showed a significant modulation of spin-orbit coupling with varying covalency.
Indicated potential for improved quantum sensing applications.
Abstract
Manipulation of quantum systems for sensing and transduction rely on controlling the interactions between a quantum system and the many degrees of freedom of the bath. In molecular spin quantum...