Ludlow Andrew D, Boyd Martin M, Zelevinsky Tanya, Foreman Seth M, Blatt Sebastian, Notcutt Mark, Ido Tetsuya, Ye Jun
JILA and Department of Physics, National Institute of Standards and Technology and University of Colorado, Boulder, Colorado 80309-0440, USA.
Phys Rev Lett. 2006 Jan 27;96(3):033003. doi: 10.1103/PhysRevLett.96.033003. Epub 2006 Jan 26.
With ultracold 87Srconfined in a magic wavelength optical lattice, we present the most precise study (2.8 Hz statistical uncertainty) to date of the 1S0-3P0 optical clock transition with a detailed analysis of systematic shifts (19 Hz uncertainty) in the absolute frequency measurement of 429 228 004 229 869 Hz. The high resolution permits an investigation of the optical lattice motional sideband structure. The local oscillator for this optical atomic clock is a stable diode laser with its hertz-level linewidth characterized by an octave-spanning femtosecond frequency comb.
利用限制在魔波长光晶格中的超冷87Sr,我们给出了迄今为止对1S0 - 3P0光钟跃迁最精确的研究(统计不确定度为2.8 Hz),并对429228004229869 Hz绝对频率测量中的系统频移(不确定度为19 Hz)进行了详细分析。高分辨率使得对光晶格运动边带结构的研究成为可能。这个光原子钟的本地振荡器是一个稳定的二极管激光器,其赫兹级线宽由一个倍频程飞秒频率梳表征。