A tunable single frequency laser with ultralow-noise and high vibration resistance is developed

and its working principle and structure design are introduced. The laser worked at 1 550 nm is consisted of a single frequency laser resonant cavity

a polarization containing optical fiber amplifier and a monitoring feedback optical path. By using a closed-loop temperature control technology

the laser shows a higher precision and stability

and its extremely temperature control resolution is up to 0.001 ℃. Using frequency components and a matched closed-loop system

the locked output frequency and power of the laser are implemented. The closed loop system not only gives the stability of wavelength and power

but also greatly reduces the low frequency noise of the laser system and effectively improves the laser damage threshold. As a result

the fiber laser can provide the long-term power stability better than 1% and the relative intensity noise better than -130 dBc/Hz. By selecting different types of seed light source cavities

the laser line-width can be controlled in the 1-400 kHz. Furthermore

the output power of fiber laser is 1 W and tunable wavelength is 3 nm. At 1 Hz

the phase noise is less than 10 radHz

-1/2

/m OPD and the shock resistance ability is 0.1

g

(

g

for the acceleration of gravity).