Abstract
Electric fields represent an ideal means for controlling spins at the nanoscale and, more specifically, for manipulating protected degrees of freedom in multispin systems. Here we perform low-temperature magnetic far-IR spectroscopy on a molecular spin triangle (Fe3) and provide initial experimental evidence suggesting spin-electric transitions in polynuclear complexes. The co-presence of electric- and magnetic-dipole transitions, allows us to estimate the spin-electric coupling. Based on spin Hamiltonian simulations of the spectra, we identify the observed transitions and introduce the concept of a generalized exchange qubit. This applies to a wide class of molecular spin triangles, and includes the scalar chirality and the partial spin sum qubits as special cases.
Reference
Probing spin-electric transitions in a molecular exchange qubit
Nature Communications 16, Article number: 1198 (2025) – DOI : https://www.nature.com/articles/s41467-025-56453-1
Contact
Athanassios K. Boudalis, team POMAM, Institut de Chimie de Strasbourg, UMR7177.
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