Litcius/Paper detail

High-resolution Spectroscopy and Single-photon Rydberg Excitation of Reconfigurable Ytterbium Atom Tweezer Arrays Utilizing a Metastable State

Daichi Okuno, Yuma Nakamura, Toshi Kusano, Yosuke Takasu, Nobuyuki Takei, Hideki Konishi, Yoshiro Takahashi

2022Journal of the Physical Society of Japan34 citationsDOIOpen Access PDF

Abstract

We present an experimental system for Rydberg tweezer arrays with ytterbium (Yb) atoms featuring internal state manipulation between the ground ${}^1$S$_0$ and the metastable ${}^3$P$_2$ states, and single-photon excitation from the ${}^3$P$_2$ to Rydberg states. In the experiments, single Yb atoms are trapped in two-dimensional arrays of optical tweezers and are detected by fluorescence imaging with the intercombination ${}^1$S$_0 \leftrightarrow {}^3$P$_1$ transition, and the defect-free single atom arrays are prepared by the rearrangement with the feedaback. We successfully perform high-resolution ${}^1$S$_0\leftrightarrow {}^3$P$_2$ state spectroscopy for the single atoms, demonstrating the utilities of this ultranarrow transition. We further perform single-photon excitation from the ${}^3$P$_2$ to Rydberg states for the single atoms, which is a key for the efficient Rydberg excitation. We also perform a systematic measurement of a complex energy structure of a series of D states including newly observed ${}^3$D$_3$ states. The developed system shows feasibility of future experiments towards quantum simulations and computations using single Yb atoms.

Topics & Concepts

YtterbiumRydberg formulaAtomic physicsMetastabilityRydberg atomSpectroscopyExcitationRydberg stateAtom (system on chip)Materials sciencePhysicsLaserOpticsIonComputer scienceQuantum mechanicsIonizationEmbedded systemCold Atom Physics and Bose-Einstein CondensatesAdvanced Frequency and Time StandardsQuantum Information and Cryptography