Synthetic Dimensions and Spin-Orbit Coupling with an Optical Clock Transition

被引:235
|
作者
Livi, L. F. [1 ,5 ]
Cappellini, G. [2 ,5 ]
Diem, M. [3 ,4 ]
Franchi, L. [2 ]
Clivati, C. [4 ]
Frittelli, M. [4 ]
Levi, F. [4 ]
Calonico, D. [4 ]
Catani, J. [1 ,5 ,6 ]
Inguscio, M. [1 ,2 ,5 ]
Fallani, L. [1 ,2 ,5 ,6 ]
机构
[1] LENS European Lab Nonlinear Spect, I-50019 Sesto Fiorentino, Italy
[2] Univ Florence, Dept Phys & Astron, I-50019 Sesto Fiorentino, Italy
[3] Univ Hamburg, ILP Inst Laserphys, D-20355 Hamburg, Germany
[4] INRIM Ist Nazl Ric Metrol, I-10135 Turin, Italy
[5] INO CNR Ist Nazl Ott CNR, Sez Sesto Fiorentino, I-50019 Sesto Fiorentino, Italy
[6] Ist Nazl Fis Nucl, Sez Firenze, I-50019 Sesto Fiorentino, Italy
来源
PHYSICAL REVIEW LETTERS | 2016年 / 117卷 / 22期
关键词
EDGE STATES; ATOMS; REALIZATION; FERMIONS; GASES;
D O I
10.1103/PhysRevLett.117.220401
中图分类号
O4 [物理学];
学科分类号
0702 ;
摘要
We demonstrate a novel way of synthesizing spin-orbit interactions in ultracold quantum gases, based on a single-photon optical clock transition coupling two long-lived electronic states of two-electron 173Yb atoms. By mapping the electronic states onto effective sites along a synthetic "electronic" dimension, we have engineered fermionic ladders with synthetic magnetic flux in an experimental configuration that has allowed us to achieve uniform fluxes on a lattice with minimal requirements and unprecedented tunability. We have detected the spin-orbit coupling with fiber-link-enhanced clock spectroscopy and directly measured the emergence of chiral edge currents, probing them as a function of the flux. These results open new directions for the investigation of topological states of matter with ultracold atomic gases.
引用
收藏
页数:5
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