物理学报2018,Vol.67Issue(1):85-91,7.DOI:10.7498/aps.67.20171748
基于单壁碳纳米管调Q锁模低阈值Tm,Ho:LiLuF4激光器
Passively Q-switched mode-locked low threshold Tm, Ho:LLF laser with an single walled carbon nanotubes saturable absorber
摘要
Abstract
Employing single walled carbon nanotubes (SWCNT) grown by the vertical growth method as a saturable absorber for the initiation of the pulse generation, and designing a low threshold resonant cavity, we demonstrate a stable passively Q-switched mode-locked (QML) Tm, Ho:LiLuF4 solid-state laser with low threshold for the first time. With wavelength tunable Ti:sapphire solid laser operating at 785 nm as a pumping source, continuous-wave (CW) absorbed pump thresh-olds of 52, 59 and 62 mW are obtained by using 1.5%, 3% and 5% output coupled mirrors respectively. In this case, the maximum output powers are 645, 828 and 940 mW respectively, whose corresponding slope deficiencies are 31.02%, 39.16%and 43.78%, respectively. When the SWCNT-SAs is inserted in the cavity, the cavity loss is further increased, so the laser threshold is improved. Employing the 1.5%output mirror, a laser threshold is obtained to be as low as 85 mW, but the maximum laser output power is only 70 mW, corresponding slope efficiency is 3.42%;employing the 3%output coupling mirror, the laser threshold is obtained to be as low as 99 mW, the maximum output power is 154 mW, and the corresponding slope efficiency is 8.47%;employing the 5%output mirror, owing to the loss in the cavity being too large, the QML operation cannot be achieved. The output power of the 3%output mirror is twice higher than that of the 1.5%output mirror, but the laser threshold difference is only 14 mW. With a comprehensive analysis, we use the 3% output mirror. In this case, a stable QML operation with a threshold of 250 mW is obtained. When the absorption pump power is 1.85 W, the maximum output power is 154 mW with a typical Q-switched pulse envelope width of 300 μs, which is corresponding to a 178.6 MHz of the mode-locked frequency. The modulation depth in Q-switching envelope is close to 100%. According to the definition of the rise time and considering the symmetric shape of the mode locked pulse, we could assume the duration of the pulse to be approximately 1.25 times more than the rise time of the pulse. So the width of the mode locked pulse is estimated to be about 663 ps. The results show that the SWCNT is a promising SA for QML solid-state laser with the 2 μm wavelength. In the later stage, we increase the pump power, optimize the quality of the SWCNT material, and compensate for the dispersion in the cavity. It is expected to achieve a stable continuous mode-locking operation, and obtain a femtosecond mode-locked ultrashort pulse output. The mode-locked mid-infrared pulses have a lot of potential applications such as ultrafast molecule spectroscopy, the generation of mid-IR pulse, laser radar, atmospheric environment monitoring, etc.关键词
Tm/Ho:LLF固体激光器/低阈值/单壁碳纳米管/调Q锁模Key words
Tm/Ho:LLF laser/low threshold/single walled carbon nanotubes/Q-switched mode-locking引用本文复制引用
令维军,夏涛,董忠,左银艳,李可,刘勍,路飞平,赵小龙,王勇刚..基于单壁碳纳米管调Q锁模低阈值Tm,Ho:LiLuF4激光器[J].物理学报,2018,67(1):85-91,7.基金项目
国家自然科学基金(批准号:61465012, 61564008, 11774257, 61461046, 61665010, 61661046)资助的课题.Project supported by the National Natural Science Foundation of China(Grant Nos.61465012, 61564008, 11774257, 61461046, 61665010, 61661046). (批准号:61465012, 61564008, 11774257, 61461046, 61665010, 61661046)
