We integrally demonstrate 2μm mode-locked pulses performances in all-fiber net anomalous dispersion cavity.Stable mode-locking operations with the center wavelength around 1950–1980 nm can be achieved by using the n...We integrally demonstrate 2μm mode-locked pulses performances in all-fiber net anomalous dispersion cavity.Stable mode-locking operations with the center wavelength around 1950–1980 nm can be achieved by using the nonlinear polarization rotation structure and properly designing the dispersion management component.Conventional soliton is firstly obtained with a total anomalous dispersion cavity.Due to the contribution of commercial ultra-high numerical aperture fibers,net dispersion is reduced to-0.077 ps2.So that stretched pulse with 19.4 nm optical bandwidth is obtained and the de-chirped pulse-width can reach 312 fs using extra-cavity compression.Under pump power greater than 890 mW,stretched pulse can evolve into noise-like pulse with 41.3 nm bandwidth.The envelope and peak of such broadband pulse can be compressed with up to 2.2 ps and 145 fs,respectively.The single pulse energy of largely chirped stretched and noise-like pulse can reach 1.785 nJ and 1.53 nJ,respectively.Furthermore,extra-cavity compression can also contribute to a significant increase of peak power.展开更多
为了研究如何产生2μm激光,提出将KTA晶体用于光参变振荡来产生2μm激光的方法,通过对比KTA与KTP晶体的非线性性能,从理论上论证了该方法的可行性;并从光学频率变换所遵循的能量守恒与动量守恒出发,利用KTA晶体的Sellm e ier方程、根据...为了研究如何产生2μm激光,提出将KTA晶体用于光参变振荡来产生2μm激光的方法,通过对比KTA与KTP晶体的非线性性能,从理论上论证了该方法的可行性;并从光学频率变换所遵循的能量守恒与动量守恒出发,利用KTA晶体的Sellm e ier方程、根据折射率椭球方程计算出了晶体的切割角度,绘制出了角度调谐和波长的关系曲线图;比较了两种切割方式下的晶体有效非线性系数的大小,通过比较,得出=0°,θ=48.37°切割的晶体具有更好的非线性特性的结论;并对该晶体的走离角、允许角、可接受带宽进行了计算,解决了KTA-OPO设计的最基本问题,为下一步的试验工作开展打下了基础。展开更多
基金This work was supported in part by the National Natural Science Foundation of China 61975021in part by the Science and Technology Project of Jilin Province under Grant 20170414041GHin part by the Research Project of Jilin Provincial Education Department under Grant JJKH20181090KJ.
文摘We integrally demonstrate 2μm mode-locked pulses performances in all-fiber net anomalous dispersion cavity.Stable mode-locking operations with the center wavelength around 1950–1980 nm can be achieved by using the nonlinear polarization rotation structure and properly designing the dispersion management component.Conventional soliton is firstly obtained with a total anomalous dispersion cavity.Due to the contribution of commercial ultra-high numerical aperture fibers,net dispersion is reduced to-0.077 ps2.So that stretched pulse with 19.4 nm optical bandwidth is obtained and the de-chirped pulse-width can reach 312 fs using extra-cavity compression.Under pump power greater than 890 mW,stretched pulse can evolve into noise-like pulse with 41.3 nm bandwidth.The envelope and peak of such broadband pulse can be compressed with up to 2.2 ps and 145 fs,respectively.The single pulse energy of largely chirped stretched and noise-like pulse can reach 1.785 nJ and 1.53 nJ,respectively.Furthermore,extra-cavity compression can also contribute to a significant increase of peak power.
文摘为了研究如何产生2μm激光,提出将KTA晶体用于光参变振荡来产生2μm激光的方法,通过对比KTA与KTP晶体的非线性性能,从理论上论证了该方法的可行性;并从光学频率变换所遵循的能量守恒与动量守恒出发,利用KTA晶体的Sellm e ier方程、根据折射率椭球方程计算出了晶体的切割角度,绘制出了角度调谐和波长的关系曲线图;比较了两种切割方式下的晶体有效非线性系数的大小,通过比较,得出=0°,θ=48.37°切割的晶体具有更好的非线性特性的结论;并对该晶体的走离角、允许角、可接受带宽进行了计算,解决了KTA-OPO设计的最基本问题,为下一步的试验工作开展打下了基础。