[1] Moore N, Clarkson W A, Hanna D C et al. Efficient operation of a diode-bar-pumped Nd∶YAG laser on the low-gain 1123-nm line[J]. Applied Optics, 38, 5761-5764(1999).

[2] Zhao L N, Su J, Hu X P et al. Single-pass sum-frequency-generation of 589-nm yellow light based on dual-wavelength Nd∶YAG laser with periodically-poled LiTaO3 crystal[J]. Optics Express, 18, 13331-13336(2010).

[3] Lee A J, Pask H M, Dekker P et al. High efficiency, multi-Watt CW yellow emission from an intracavity-doubled self-Raman laser using Nd∶GdVO4[J]. Optics Express, 16, 21958-21963(2008).

[4] Zheng Q, Yao Y, Qu D P et al. All-solid-state 556 nm yellow-green laser generated by frequency doubling of a diode-pumped Nd∶YAG laser[J]. Journal of the Optical Society of America B, 26, 1939-1943(2009).

[5] Jia F Q, Zheng Q, Xue Q H et al. Yellow light generation by frequency doubling of a diode-pumped Nd∶YAG laser[J]. Optics Communications, 259, 212-215(2006).

[6] Gao J, Dai X J, Zhang L et al. All-solid-state continuous-wave yellow laser at 561 nm under in-band pumping[J]. Journal of the Optical Society of America B, 30, 95-98(2012).

[7] Wang Z C, Peng Q J, Bo Y et al. 60 W yellow laser at 561 nm by intracavity frequency doubling of a diode-pumped Q-switched Nd∶YAG laser[J]. Optics Communications, 285, 328-330(2012).

[8] Bowman S R, O’Connor S, Condon N J. Diode pumped yellow dysprosium lasers[J]. Optics Express, 20, 12906-12911(2012).

[9] Kantola E, Leinonen T, Ranta S N et al. High-efficiency 20 W yellow VECSEL[J]. Optics Express, 22, 6372-6380(2014).

[10] Janousek J, Johansson S, Tidemand-Lichtenberg P et al. Efficient all solid-state continuous-wave yellow-orange light source[J]. Optics Express, 13, 1188-1192(2005).

[11] Seitz M, Oliver A G, Raymond K N. The lanthanide contraction revisited[J]. Journal of the American Chemical Society, 129, 11153-11160(2007).

[12] Liang F, He C, Lu D Z et al. Multiphonon-assisted lasing beyond the fluorescence spectrum[J]. Nature Physics, 18, 1312-1316(2022).

[13] Lu D Z, Fang Q N, Hao H Y et al. Yb:YCOB self-frequency-doubled yellow laser crystal and device[J]. Journal Of the Chinese Ceramic Society, 49, 246-249(2021).

[14] Wu H S, Li H B, An Y et al. Transverse mode instability mitigation in a high-power confined-doped fiber amplifier with good beam quality through seed laser control[J]. High Power Laser Science and Engineering, 10, e44(2022).

[15] Li Y L, Ding J, Bai Z X et al. Diamond Raman laser: a promising high-beam-quality and low-thermal-effect laser[J]. High Power Laser Science and Engineering, 9, e35(2021).

[16] Yang J F, Wang Z H, Song J J et al. Diode-pumped 10 W femtosecond Yb∶CALGO laser with high beam quality[J]. High Power Laser Science and Engineering, 9, e33(2021).

[17] Li R X, Wu H S, Xiao H et al. More than 8 kW fiber laser amplifier with high beam quality enabled by counter tandem pumping scheme[J]. Acta Optica Sinica, 42, 1436001(2022).

[18] Zhang C. Growth and properties of series Re: YCOB crystals[D], 68-69(2010).

[19] Wang L, Nie J S, Ye Q et al. Study on thermal effect and compensation technology of 0.53 μm all-solid-state laser[J]. Infrared and Laser Engineering, 46, 0406003(2017).

[20] Yang W H, Wang Y J, Zheng Y H et al. Comparative study of the frequency-doubling performance on ring and linear cavity at short wavelength region[J]. Optics Express, 23, 19624-19633(2015).

[21] Wang Y J, Yang W H, Li Z X et al. Determination of blue-light-induced infrared absorption based on mode-matching efficiency in an optical parametric oscillator[J]. Scientific Reports, 7, 1-7(2017).

[22] Fang Q N, Lu D Z, Yu H H et al. Self-frequency-doubled vibronic yellow Yb∶YCOB laser at the wavelength of 570 nm[J]. Optics Letters, 41, 1002-1005(2016).

[23] Fang Q N. Studies on growth and self-frequency-doubled yellow laser performance of Yb3+ doped calcium yttrium oxoborate crystal[D](2019).