[1] Yang LIU, Zhaojun LIU, Zhenhua CONG et al. A diode pumped passively Q-switched Nd∶LuYAG laser emitting at 1 123 nm. Acta Physica Sinica, 64, 034208(2015).

[2] Shunyu YANG, Jingfeng ZHOU, Ben LI et al. Wavelength-adjustable all-solid-state yellow-green laser with low noise (invited). Acta Photonica Sinica, 51, 1014005(2022).

[3] Quan ZHENG, Yi YAO, Dapeng QU et al. All-solid-state 556 nm yellow-green laser generated by frequency doubling of a diode-pumped Nd∶YAG laser. Journal of the Optical Society of America B, 26, 1939-1943(2009).

[4] Yang BAI, Zhihan CHEN, Ben LI et al. Wavelength-variable low-noise all-solid-state yellow-green laser based on BP-frequency selection and BC-filtering. Laser Physics, 32, 125803(2022).

[5] E RÄIKKÖNEN, O KIMMELMA, M KAIVOLA et al. Passively Q-switched Nd∶YAG/KTA laser at 561 nm. Optics Communications, 281, 4088-4091(2008).

[6] N WERNER, J HOFMANN, A SAHM et al. Direct modulation capabilities of micro-integrated laser sources in the yellow-green spectral range. IEEE Photonics Technology Letters, 29, 995-998(2017).

[7] M NAGUIB, M KURTOGLU, V PRESSER et al. Two-dimensional nanocrystals produced by exfoliation of Ti3AlC2. Advanced Materials, 23, 4248-4253(2011).

[8] Xiaoyue FENG, Baoyong DING, Weiyuan LIANG et al. MXene Ti3C2Tx absorber for a 1.06 μm passively Q-switched ceramic laser. Laser Physics Letters, 15, 085805(2018).

[9] Qianqian HAO, Jingjing LIU, Zhen ZHANG et al. Mid-infrared Er∶CaF2-SrF2 bulk laser Q-switched by MXene Ti3C2Tx absorber. Applied Physics Express, 12, 085506(2019).

[10] Qingyu TIAN, Peng YIN, Teng ZHANG et al. MXene Ti3C2Tx saturable absorber for passively Q-switched mid-infrared laser operation of femtosecond-laser-inscribed Er∶Y2O3 ceramic channel waveguide. Nanophotonics, 9, 2495-2503(2020).

[11] Cong WANG, Qianqian PENG, Xiuwei FAN et al. MXene Ti3C2Tx saturable absorber for pulsed laser at 1.3 μm. Chinese Physics B, 27, 094214(2018).

[12] S ASIA, G YURY. Raman spectroscopy analysis of the structure and surface chemistry of Ti3C2Tx MXene. Chemistry of Materials: A Publication of the American Chemistry Society, 32, 3480-3488(2020).

[13] M GHODRATI, A MIR, A FARMANI. Proposing of SPR biosensor based on 2D Ti3C2Tx MXene for uric acid detection ımmobilized by uricase enzyme. Journal of Computational Electronics, 22, 560-569(2023).

[14] Yanxiao SUN, Yang BAI, Diao LI et al. 946 nm Nd∶YAG double Q-switched laser based on monolayer WSe2 saturable absorber. Optics Express, 25, 21037-21048(2017).

[15] K BHATTACHARYA. A complement to the scalar wave theory of light. European Journal of Physics, 43, 035305(2022).

[16] Wendi WU, Huili WANG, Tianhua ZHOU et al. Research on the filter performance with crystal thickness accuracy in the birefringent filters. Chinese Journal of Lasers, 41, 1208009(2014).

[17] H NAGAI, M KUME, I OHTA et al. Low-noise operation of a diode-pumped intracavity-doubled Nd∶YAG laser using a Brewster plate. IEEE Journal of Quantum Electronics, 28, 1164-1168(1992).

[18] Jiang WANG, Liang XIE, Yuheng WANG et al. High-damage vanadium pentoxide film saturable absorber for sub-nanosecond Nd∶YAG lasers. Infrared Physics & Technology, 129, 104580(2023).

[19] Bing BAI, Yang BAI, Diao LI et al. Double Q-switched 946 nm laser with MgO: LN electro-optic crystal and MoSe2 saturable absorber. Chinese Optics Letters, 16, 031402(2018).