[1] Guo C Y. The development of optical coherence tomography based on supercontinuum source[J]. China Science & Technology Overview, 16, 118-119(2013).
[2] Yu L Y. Y J, Wan H, et al. Study on the method and experiment of time-resolved coherent anti-Stokes Raman scattering using supercontinuum excitation[J]. Acta Physica Sinica, 59, 5406-5411(2010).
[3] Lu Y, Li Z L, Wang X Z et al. Development of 50 kHz intravascular swept source optical coherence tomographic System[J]. Chinese Journal of Lasers, 44, 0207001(2017).
[5] Liu Y Y, Yang L Z, Wang F F et al. Link fault detection in passive optical networks based on correlation method combined with an amplified spontaneous emission source[J]. Chinese Journal of Lasers, 41, 0805004(2014).
[6] Li L, Jia Z A. Experimental investigation on dual-stage dual-pump Erbium-doped super-fluorescent light source[J]. Acta Sinica Quantum Optica, 22, 298-302(2016).
[7] Long H, Yao B, Mao Q H. Reusing the backward ASE in Tm-Ho co-doped fiber amplifiers based onFBG[J]. Chinese Journal of Lasers, 43, 0505006(2016).
[10] Chow K K, Takushima Y. 978: CFK6[C]. Mizuno Y. High average power super-continuum generation using a 1 μm ASE noise source. Conference on Lasers & Electro-Optics(2006).
[11] Lee J H, Jung E J, Kim C S. Incoherent CW supercontinuum source based on erbium fiber ASE for optical coherence tomography imaging[C]. Optoelectronics & Communications Conference, 978, 1-2(2009).
[13] Shen X L, Zhang H T, 100 mJ, high peak power, 8 MW. 978:[C]. generated by super-radiation fiber amplifier system. Advanced Solid State Lasers, AM5A, 12(2014).