Litcius/Paper detail

Quantum-nondemolition state detection and spectroscopy of single trapped molecules

Mudit Sinhal, Ziv Meir, Kaveh Najafian, Gregor Hegi, Stefan Willitsch

2020Science74 citationsDOIOpen Access PDF

Abstract

Trapped atoms and ions, which are among the best-controlled quantum systems, find widespread applications in quantum science. For molecules, a similar degree of control is currently lacking owing to their complex energy-level structure. Quantum-logic protocols in which atomic ions serve as probes for molecular ions are a promising route for achieving this level of control, especially for homonuclear species that decouple from blackbody radiation. Here, a quantum-nondemolition protocol on single trapped [Formula: see text] molecules is demonstrated. The spin-rovibronic state of the molecule is detected with >99% fidelity, and a spectroscopic transition is measured without destroying the quantum state. This method lays the foundations for new approaches to molecular spectroscopy, state-to-state chemistry, and the implementation of molecular qubits.

Topics & Concepts

Homonuclear moleculeQubitMoleculeQuantum metrologySpectroscopyQuantumTrapped ion quantum computerPhysicsChemistryQuantum informationAtomic physicsQuantum networkQuantum mechanicsQuantum error correctionCold Atom Physics and Bose-Einstein CondensatesQuantum optics and atomic interactionsAtomic and Subatomic Physics Research