中文摘要：

The modulation transfer spectroscopy in an ytterbium hollow cathode lamp at 399 nm is measured.The error signal for frequency locking is optimized by measuring the dependences of its slope,linewidth and magnitude on various parameters.Under the optimum condition,the laser frequency at 399 nm can be stabilized.The long-term stability of laser frequency is measured by monitoring the fluorescence signal of the ytterbium atomic beam induced by the locked laser.The laser frequency is shown to be tightly locked,and the stabilized laser is successfully applied to the cooling of ytterbium atoms.

英文摘要：

The modulation transfer spectroscopy in an ytterbium hollow cathode lamp at 399 nm is measured. The error signal for frequency locking is optimized by measuring the dependences of its slope, linewidth and magnitude on various parameters. Under the optimum condition, the laser frequency at 399 nm can be stabilized. The long-term stability of laser frequency is measured by monitoring the fluorescence signal of the ytterbium atomic beam induced by the locked laser. The laser frequency is shown to be tightly locked, and the stabilized laser is successfully applied to the cooling of ytterbium atoms.