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Experimental Realization of Multi-ion Sympathetic Cooling on a Trapped Ion Crystal

Zhichao Mao, Yong Xu, Q.-X. Mei, W.-D. Zhao, Yue Jiang, Y. Wang, X.-Y. Chang, Longfei He, Lin Yao, Z.-C. Zhou, Yukai Wu, Luming Duan

2021Physical Review Letters14 citationsDOI

Abstract

Trapped ions are one of the leading platforms in quantum information science. For quantum computing with large circuit depth and quantum simulation with long evolution time, it is of crucial importance to cool large ion crystals at runtime without affecting the internal states of the computational qubits, thus the necessity of sympathetic cooling. Here, we report multi-ion sympathetic cooling on a long ion chain using a narrow cooling beam focused on two adjacent ions, and optimize the choice of the cooling ions according to the collective oscillation modes of the chain. We show that, by cooling a small fraction of ions, cooling effects close to the global Doppler cooling limit can be achieved. This experiment therefore demonstrates an important enabling step for quantum information processing with large ion crystals.

Topics & Concepts

IonLaser coolingQubitQuantum informationQuantum computerResolved sideband coolingAtomic physicsRealization (probability)Materials scienceOscillation (cell signaling)Trapped ion quantum computerQuantumIon beamQuantum simulatorRaman coolingPhysicsQuantum mechanicsChemistryScatteringInelastic scatteringStatisticsMathematicsBiochemistryLaserX-ray Raman scatteringQuantum Information and CryptographyQuantum Computing Algorithms and ArchitectureQuantum Mechanics and Applications
Experimental Realization of Multi-ion Sympathetic Cooling on a Trapped Ion Crystal | Litcius