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Efficient Ground-State Cooling of Large Trapped-Ion Chains with an Electromagnetically-Induced-Transparency Tripod Scheme

Lei Feng, Wen Lin Tan, Arinjoy De, Anup Menon, A. P. Chu, Guido Pagano, C. Monroe

2020Physical Review Letters68 citationsDOIOpen Access PDF

Abstract

We report the electromagnetically-induced-transparency (EIT) cooling of a large trapped ^{171}Yb^{+} ion chain to the quantum ground state. Unlike conventional EIT cooling, we engage a four-level tripod structure and achieve fast sub-Doppler cooling over all motional modes. We observe simultaneous ground-state cooling across the complete transverse mode spectrum of up to 40 ions, occupying a bandwidth of over 3 MHz. The cooling time is observed to be less than 300 μs, independent of the number of ions. Such efficient cooling across the entire spectrum is essential for high-fidelity quantum operations using trapped ion crystals for quantum simulators or quantum computers.

Topics & Concepts

Electromagnetically induced transparencyTripod (photography)IonResolved sideband coolingGround stateAtomic physicsLaser coolingPhysicsQuantumQuantum stateDoppler effectMaterials scienceOpticsQuantum mechanicsLaserMechanical and Optical ResonatorsQuantum Information and CryptographyCold Atom Physics and Bose-Einstein Condensates
Efficient Ground-State Cooling of Large Trapped-Ion Chains with an Electromagnetically-Induced-Transparency Tripod Scheme | Litcius