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Статті в журналах з теми "Dual-wavelength pumped"

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Автор: Grafiati
Опубліковано: 10 грудня 2022
Оновлено: 28 січня 2023

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1

Nakata, Tsuneo, and Fumihiko Kannari. "Dual-wavelength-pumped Raman-resonant four-wave mixing." Journal of the Optical Society of America B 10, no. 10 (October 1, 1993): 1870. http://dx.doi.org/10.1364/josab.10.001870.

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2

Wang, Shunyan, Kang Dai, Juhong Han, Guofei An, Wei Zhang, Qiang Yu, He Cai, et al. "Dual-wavelength end-pumped Rb-Cs vapor lasers." Applied Optics 57, no. 32 (November 5, 2018): 9562. http://dx.doi.org/10.1364/ao.57.009562.

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3

Xia, Jing, Yanfei Lü, Huilong Liu, and Xiaoyun Pu. "Diode-pumped Pr3+:LiYF4 visible dual-wavelength laser." Optics Communications 334 (January 2015): 160–63. http://dx.doi.org/10.1016/j.optcom.2014.08.032.

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4

Song, Yan-Jie, Nan Zong, Zhong-Zheng Chen, Yu Shen, Lu-Na Zhang, Yong Bo, and Qin-Jun Peng. "Experimental and theoretical investigation of a cryogenically cooled Nd:YAG laser with dual-wavelength at 946 and 1061 nm." Laser Physics Letters 20, no. 2 (December 30, 2022): 025701. http://dx.doi.org/10.1088/1612-202x/acab56.

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Анотація:
Abstract A diode-end-pumped cryogenically cooled Nd:YAG laser is demonstrated with dual-wavelengths at 946 nm and 1061 nm. As temperature varies from 300 K to 190 K, a transition occur from single-wavelength at 946 nm to dual-wavelength at 946 nm and 1061 nm. Only the line at 1061 nm oscillated for the temperature less than 180 K. Moreover, a theoretical simulation of oscillation condition at cryogenic temperatures is implemented, leading a deep insight into the physical mechanism of dual-wavelength generation.
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5

Reeves-Hall, P. C., D. A. Chestnut, C. J. S. De Matos, and J. R. Taylor. "Dual wavelength pumped L- and U-band Raman amplifier." Electronics Letters 37, no. 14 (2001): 883. http://dx.doi.org/10.1049/el:20010595.

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6

Ramaiah-Badarla, V., S. Chaitanya Kumar, and M. Ebrahim-Zadeh. "Fiber-laser-pumped, dual-wavelength, picosecond optical parametric oscillator." Optics Letters 39, no. 9 (April 28, 2014): 2739. http://dx.doi.org/10.1364/ol.39.002739.

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7

Gao, Jun, PengFei Sun, XinBing Wang, and DuLuo Zuo. "Modeling of a dual-wavelength pumped metastable argon laser." Laser Physics Letters 14, no. 3 (February 7, 2017): 035001. http://dx.doi.org/10.1088/1612-202x/aa5b10.

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8

Zhang, Jing, Xihong Fu, Pei Zhai, Jing Xia, and Shutao Li. "A diode-pumped Nd:YAlO3 dual-wavelength yellow light source." Laser Physics 23, no. 11 (September 25, 2013): 115001. http://dx.doi.org/10.1088/1054-660x/23/11/115001.

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9

Kaspi, Ron, Andrew P. Ongstad, Gregory C. Dente, Michael L. Tilton, and Anna Tauke-Pedretti. "Optically Pumped Midinfrared Laser With Simultaneous Dual-Wavelength Emission." IEEE Photonics Technology Letters 20, no. 17 (2008): 1467–69. http://dx.doi.org/10.1109/lpt.2008.927900.

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10

Tauke-Pedretti, A., A. P. Ongstad, M. L. Tilton, J. C. Chavez, and R. Kaspi. "Power Sharing in Dual-Wavelength Optically Pumped Midinfrared Laser." IEEE Photonics Technology Letters 21, no. 14 (July 2009): 1011–13. http://dx.doi.org/10.1109/lpt.2009.2021955.

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11

Fan, Xiu-Wei, Jing-Liang He, Hai-Tao Huang, and Lin Xue. "An Intermittent Oscillation Dual-Wavelength Diode-Pumped Nd:YAG Laser." IEEE Journal of Quantum Electronics 43, no. 10 (October 2007): 884–88. http://dx.doi.org/10.1109/jqe.2007.904310.

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12

Hu, Weiwei, Yong-liang Li, Xiaokun Gu, Hongxin Liu, Yipeng Zhang, and Yingming Zhang. "Intracavity cascading pumped dual-wavelength output Nd:YAG/Yb:YAG laser." Optik 178 (February 2019): 610–13. http://dx.doi.org/10.1016/j.ijleo.2018.10.063.

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13

Deneva, Margarita, Marin Nenchev, Ernst Wintner, and Suat Topcu. "Coaxial-geometry tunable dual-wavelength flashlamp-pumped Nd:Yag laser." Optical and Quantum Electronics 47, no. 10 (June 26, 2015): 3253–71. http://dx.doi.org/10.1007/s11082-015-0205-3.

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14

Zhong, Kai, Jianquan Yao, Chongling Sun, Chengguo Zhang, Yueyang Miao, Ran Wang, Degang Xu, et al. "Efficient diode-end-pumped dual-wavelength Nd, Gd:YSGG laser." Optics Letters 36, no. 19 (September 23, 2011): 3813. http://dx.doi.org/10.1364/ol.36.003813.

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15

Chen, Y. J., X. H. Gong, Y. F. Lin, J. H. Huang, Z. D. Luo, and Y. D. Huang. "Diode-pumped orthogonally polarized dual-wavelength Nd3+:LaBO2MoO4 laser." Applied Physics B 112, no. 1 (March 26, 2013): 55–60. http://dx.doi.org/10.1007/s00340-013-5396-3.

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16

He, Jin-Qi, Yuan Dong, Feng-Dong Zhang, Yong-Ji Yu, Guang-Yong Jin, and Li-Da Liu. "The space-dependent model and output characteristics of intra-cavity pumped dual-wavelength lasers." International Journal of Modern Physics B 30, no. 03 (January 25, 2016): 1550265. http://dx.doi.org/10.1142/s0217979215502653.

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Анотація:
The intra-cavity pumping scheme which is used to simultaneously generate dual-wavelength lasers was proposed and published by us and the space-independent model of quasi-three-level and four-level intra-cavity pumped dual-wavelength lasers was constructed based on this scheme. In this paper, to make the previous study more rigorous, the space-dependent model is adopted. As an example, the output characteristics of 946 nm and 1064 nm dual-wavelength lasers under the conditions of different output mirror transmittances are numerically simulated by using the derived formula and the results are nearly identical to what was previously reported.
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17

Sun, Xiaoli, Jingliang He, Zhitai Jia, Jian Ning, Ruwei Zhao, Xiancui Su, Yiran Wang, Baitao Zhang, Kejian Yang та Shuang Zhao. "Dual-wavelength synchronously mode-locked Nd:LaGGG laser operating at 1.3 μm with a SESAM". RSC Advances 7, № 51 (2017): 32044–48. http://dx.doi.org/10.1039/c7ra04768a.

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18

Uchida, A., M. Takeoka, T. Nakata, and F. Kannari. "Wide-range all-optical wavelength conversion using dual-wavelength-pumped fiber Raman converter." Journal of Lightwave Technology 16, no. 1 (1998): 92–99. http://dx.doi.org/10.1109/50.654989.

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19

Wang, Yan Bin, Jing Hou, Chun Le Xiong, Yang Peng, Rui Song, and Qi Sheng Lu. "Supercontinuum Generation with Dual-Wavelengthpumping in an All-Fiber Device." Advanced Materials Research 216 (March 2011): 553–57. http://dx.doi.org/10.4028/www.scientific.net/amr.216.553.

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Анотація:
We have theoretically investigated supercontinuum (SC) generation with dual-wavelength pumping. The dual-wavelength-pumped source at 1064/686nm generated through four-wave mixing and SC generation have been realized in an all-fiber device. A good agreement between our simulation and experimental results has proved the conjugate action of cross-phase modulation and soliton self-frequency shift can obviously improve the power at the visible wavelengths with group-velocity matching between the visible wave at 686nm and the infrared wave at 1064nm.
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20

Huang, Qiu Shi, Hong Xing Cai, Xi He Zhang, Yan Ji Qu, Zhi Wei, Bo Peng, and Yong Tan. "Dual-Wavelength Single-Mode Optical Fiber Raman Laser." Key Engineering Materials 552 (May 2013): 367–72. http://dx.doi.org/10.4028/www.scientific.net/kem.552.367.

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Анотація:
In order to realize the dual-wave length lasing based on stimulated Raman scattering principle, the dual-wavelength single-mode optical fiber Raman laser is established. Firstly, 80m long G652b single-model quartz fiber is pumped by Nd3+:YAG solid pulse laser, and its output spectra when without grating which are measured and studied. Then, a linear external-cavity fiber laser is designed with fiber Bragg grating as mirrors to gain 1062nm and 1066.5nm laser output. To change pump energy (65.2uJ~100.4uJ), the mean-variances of energy percentages are all about 7.58%,and dual-wavelength energy ratio is close to 1:1. Pump pulse widths are close to 32.14ns. Finally, the main parameters of laser are analyzed too. The dual-wavelength single-mode optical fiber Raman laser can be applied to Raman amplifier filed.
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21

Xi Xiaoming, 奚小明, 陈子伦 Chen Zilun, 孙桂林 Sun Guilin, 谌鸿伟 Chen Hongwei, 李志鸿 Li Zhihong, 黄值河 Huang Zhihe, and 侯静 Hou Jing. "Dual-Wavelength Pumped Supercontinuum Generation in Tapered Photonic Crystal Fibers." Acta Optica Sinica 31, no. 2 (2011): 0206001. http://dx.doi.org/10.3788/aos201131.0206001.

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22

Xiong, Chunle, Zilun Chen, and William J. Wadsworth. "Dual-Wavelength-Pumped Supercontinuum Generation in an All-Fiber Device." Journal of Lightwave Technology 27, no. 11 (June 2009): 1638–43. http://dx.doi.org/10.1109/jlt.2009.2019971.

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23

Singh, A. J., S. K. Sharma, P. K. Mukhopadhyay, and S. M. Oak. "Dual wavelength operation in diode-end-pumped hybrid vanadate laser." Pramana 75, no. 5 (November 2010): 929–34. http://dx.doi.org/10.1007/s12043-010-0177-6.

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24

Saissy, A., D. B. Ostrowsky, and G. Maze. "Fluorescence in dual-wavelength pumped Ho/sup 3+/-fluorozirconate fibers." Journal of Lightwave Technology 9, no. 11 (1991): 1467–70. http://dx.doi.org/10.1109/50.97634.

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25

Liu, Pian, Lin Jin, Xuan Liu, Haitao Huang, Jian Zhang, Dingyuan Tang, and Deyuan Shen. "A Diode-Pumped Dual-Wavelength Tm, Ho: YAG Ceramic Laser." IEEE Photonics Journal 8, no. 5 (October 2016): 1–7. http://dx.doi.org/10.1109/jphot.2016.2608661.

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26

Nakata, Tsuneo, Tadashi Yamada, and Fumihiko Kannari. "Picosecond VUV Pulse Generation by Dual-Wavelength-Pumped Raman Shifting." Japanese Journal of Applied Physics 34, Part 1, No. 12A (December 15, 1995): 6401–6. http://dx.doi.org/10.1143/jjap.34.6401.

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27

Yang, Xiu-qin, Zhi-guo Ma, Li-he Zheng, Lian-ju Shang, and Fu-fang Su. "An LD-pumped dual-wavelength actively Q-switched Nd:Sc0.2Y0.8SiO5 laser." Optoelectronics Letters 11, no. 2 (March 2015): 92–94. http://dx.doi.org/10.1007/s11801-015-5003-4.

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28

Wang, Fei, Haitao Huang, Haiwei Chen, Yushuo Bao, Zihan Li та Deyuan Shen. "GSA and ESA dual-wavelength pumped 2.3 μm Tm:YLF laser on the 3H4→3H5 transition". Chinese Optics Letters 19, № 9 (2021): 091405. http://dx.doi.org/10.3788/col202119.091405.

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29

Cai, Kaidi, Xin Zhang, Lijie Wang, Yanjing Wang, Huanyu Lu, Cunzhu Tong та Lijun Wang. "Numerical Analysis of a Dual-Wavelength-Clad-Pumped 3.5 μm Erbium-Doped Fluoride Fiber Laser". Applied Sciences 12, № 15 (29 липня 2022): 7666. http://dx.doi.org/10.3390/app12157666.

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Анотація:
The stability and efficiency of a 3.5 μm erbium-doped fluoride fiber is strongly limited by the core pumping setup of a 1976 nm pump. A dual-wavelength-clad-pumped scheme was put forward for a more robust and higher electro-optical efficiency in this paper, and a numerical model was built up to stimulate the fiber. Parameter optimizations were given for both the traditional dual-wavelength pump setup and our new scheme. The results show the possibility of using a laser diode as pump source for the generation of a 3.5 μm laser, and the characteristics were analyzed.
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30

Liu, Yang, Quan Sheng, Kai Zhong, Wei Shi, Xin Ding, Hongzhan Qiao, Kefei Liu, et al. "Dual-wavelength intracavity Raman laser driven by a coaxially pumped dual-crystal fundamental laser." Optics Express 27, no. 20 (September 18, 2019): 27797. http://dx.doi.org/10.1364/oe.27.027797.

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31

Liu, Yu, YuWen Li, KaiHui Gu, DeFeng Wang, Qiu Li, and Yuan Dong. "Thermo-stable resonator for intracavity-pumped dual-wavelength narrow-linewidth laser." Optics & Laser Technology 140 (August 2021): 107086. http://dx.doi.org/10.1016/j.optlastec.2021.107086.

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32

Fedorova, Ksenia A., Christine D. Wong, Christopher M. Kaleva, Ilia O. Bakshaev, Daniil A. Livshits, and Edik U. Rafailov. "Tunable single- and dual-wavelength SHG from diode-pumped PPKTP waveguides." Optics Letters 41, no. 21 (November 1, 2016): 5098. http://dx.doi.org/10.1364/ol.41.005098.

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33

Takeda, Hideki, Yousuke Akabane, and Fumihiko Kannari. "Dual-Wavelength Operation of a Flashlamp Pumped Narrow-Linewidth Ti:Sapphire Laser." Japanese Journal of Applied Physics 33, Part 1, No. 12A (December 15, 1994): 6557–63. http://dx.doi.org/10.1143/jjap.33.6557.

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34

Nakata, Tsuneo, Tadashi Yamada, and Fumihiko Kannari. "Order-selective Raman conversion by dual-wavelength-pumped four-wave mixing." Journal of the Optical Society of America B 11, no. 11 (November 1, 1994): 2182. http://dx.doi.org/10.1364/josab.11.002182.

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35

Kajikawa, Eiji, Tomohiro Ishii, Takashi Kubo, Yu-Ichi Takeuchi, Kazuhiko Ogawa, and Mitsuru Musha. "Dual-wavelength-pumped Tm3+-doped ZBLAN fiber MOPA at 813 nm." Optics Letters 44, no. 11 (May 30, 2019): 2875. http://dx.doi.org/10.1364/ol.44.002875.

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36

Hong, Soonki, Yutong Feng, and Johan Nilsson. "Off-Peak Dual-Wavelength Multimode Diode-Laser- Pumped Fiber Raman Laser." IEEE Photonics Technology Letters 30, no. 18 (September 15, 2018): 1625–28. http://dx.doi.org/10.1109/lpt.2018.2863559.

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37

Lei, Chengmin, Hanlin Feng, Younes Messaddeq, and Sophie Larochelle. "Investigation of Bi-Directionally, Dual-Wavelength Pumped Extended L-Band EDFAs." IEEE Photonics Technology Letters 32, no. 18 (September 15, 2020): 1227–30. http://dx.doi.org/10.1109/lpt.2020.3016729.

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38

Hu, Weiwei, Yongliang Li, Chenwen Hu, Xiaokun Gu, Hongxin Liu, Yipeng Zhang, and Yingming Zhang. "Intra-cavity cascaded pumped 912nm/1030 nm dual wavelength laser output." Optics Communications 452 (December 2019): 440–44. http://dx.doi.org/10.1016/j.optcom.2019.07.043.

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39

Lv, Shuhui, Congcong Gao, Zhen Tian, Xiancui Su, Guoju Wang, Guo Zhu, Beibei Wang, et al. "Diode-pumped continuous-wave dual-wavelength and Q-switched Yb:LuYAG lasers." Optics Communications 478 (January 2021): 126356. http://dx.doi.org/10.1016/j.optcom.2020.126356.

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40

Luthi, S. R., M. T. Carvalho, and A. S. L. Gomes. "Transient gain behavior in 1050/1550-nm dual-wavelength pumped TDFAs." IEEE Photonics Technology Letters 17, no. 5 (May 2005): 995–97. http://dx.doi.org/10.1109/lpt.2005.845726.

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41

Sanchez-Gonzalez, Arturo, Rosa Ana Perez-Herrera, Pablo Roldan-Varona, Miguel Duran-Escudero, Luis Rodriguez-Cobo, Jose Miguel Lopez-Higuera, and Manuel Lopez-Amo. "A Dual-Wavelength Fiber Laser Sensor with Temperature and Strain Discrimination." Sensors 22, no. 18 (September 13, 2022): 6888. http://dx.doi.org/10.3390/s22186888.

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Анотація:
This work presents a dual-wavelength C-band erbium-doped fiber laser assisted by an artificial backscatter reflector. This fiber-based reflector, inscribed by femtosecond laser direct writing, was fabricated into a single mode fiber with a length of 32 mm. The dual-wavelength laser obtained, centered at 1527.7 nm and 1530.81 nm, showed an optical signal-to-noise ratio over 46 dB when pumped at 150 mW. Another feature of this laser was that the power difference between the two channels was just 0.02 dB, regardless of the pump power, resulting in a dual emission laser with high equalization. On the other hand, an output power level and a central wavelength instability as low as 0.3 dB and 0.01 nm were measured, in this order for both channels. Moreover, the threshold pump power was 40 mW. Finally, the performance of this dual-wavelength fiber laser enhanced with a random reflector for sensing applications was studied, achieving the simultaneous measurement of strain and temperature with sensitivities around 1 pm/με and 9.29 pm/°C, respectively.
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42

Mohamed, Mahmoud, Bin Zhang, Qianli Ma, Josh Kneller, and Chang-Qing Xu. "Efficient Dual-Wavelengths Continuous Mode Lasers by End-Pumping of Series Nd:YVO4 and Nd:GdVO4 Crystals and Speckle Reduction Study." Photonics 6, no. 2 (May 17, 2019): 53. http://dx.doi.org/10.3390/photonics6020053.

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Анотація:
In this paper, diode pumped solid state (DPSS) lasers based on end-pumping series N d : Y V O 4 and N d : G d V O 4 crystals were studied. Dual-, tri-, and quad-wavelength emissions were achieved. In the dual-wavelength emission operation, an optical-to-optical efficiency (O-O) of 48.9% and the power instability was 0.4% were obtained. These are the most efficient and compact lasers operating in continuous wave mode reported to date with series crystals. Besides this, the effect of changing power ratio between the output laser powers on speckle reduction was investigated for the first time. In addition, tri and quad wavelength emissions were achieved with a reasonable efficiency simply by optimizing the cavity parameters.
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43

Wang Fei, 王飞, 黄海涛 Huang Haitao, 鲍玉朔 Bao Yushuo, 李子涵 Li Zihan та 沈德元 Shen Deyuan. "GSA和ESA双波长泵浦2.3 μm波段Tm∶YAP激光器". Chinese Journal of Lasers 49, № 1 (2022): 0101022. http://dx.doi.org/10.3788/cjl202249.0101022.

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44

Shen, Yijie, Yuan Meng, Xing Fu, and Mali Gong. "Dual-wavelength vortex beam with high stability in a diode-pumped Yb:CaGdAlO4laser." Laser Physics Letters 15, no. 5 (March 26, 2018): 055803. http://dx.doi.org/10.1088/1612-202x/aaaa97.

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45

Lüthi, S. R., M. L. Sundheimer, W. Margulis, and A. S. L. Gomes. "800∕1060 nm dual-wavelength pumped TDFA using single active pump source." Electronics Letters 41, no. 25 (2005): 1366. http://dx.doi.org/10.1049/el:20053497.

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46

Wang Yongheng, 王永恒, 赵长明 Zhao Changming, 蔡子韬 Cai Zitao, and 姚睿育 Yao Ruiyu. "LD Pumped 1061 nm/1064 nm Dual-Wavelength Nd∶YAG Microchip Laser." Chinese Journal of Lasers 47, no. 3 (2020): 0301002. http://dx.doi.org/10.3788/cjl202047.0301002.

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47

Yu, X., C. L. Li, G. C. Sun, B. Z. Li, X. Y. Chen, M. Zhao, J. B. Wang, X. H. Zhang, and G. Y. Jin. "Continuous-wave dual-wavelength operation of a diode-end-pumped Nd:LuVO4 laser." Laser Physics 21, no. 6 (May 3, 2011): 1039–41. http://dx.doi.org/10.1134/s1054660x11110363.

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48

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Sun, P., D. Zuo, X. Wang, J. Han, and M. C. Heaven. "Investigation of dual-wavelength pump schemes for optically pumped rare gas lasers." Optics Express 28, no. 10 (April 28, 2020): 14580. http://dx.doi.org/10.1364/oe.392810.

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Wang, Peng, Xi Cheng, Xiao Li, Hu Xiao, and Xiaojun Xu. "Fiber-laser-pumped, continuous-wave, dual-wavelength, mid-infrared optical parametric oscillator." Laser Physics 28, no. 8 (June 13, 2018): 085103. http://dx.doi.org/10.1088/1555-6611/aac53d.

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