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Автор: Grafiati
Опубліковано: 10 грудня 2022
Оновлено: 29 січня 2023

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1

Little, H. L., and R. L. Jack. "Q-Switched Neodymium." RETINA 7, no. 3 (1987): 204. http://dx.doi.org/10.1097/00006982-198700730-00014.

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2

Moubasher, Alaa E. A., Eman M. K. Youssef, and Doaa A. E. Abou-Taleb. "Q-Switched Nd." Dermatologic Surgery 40, no. 8 (August 2014): 874–82. http://dx.doi.org/10.1097/dss.0000000000000065.

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3

Baoquan Yao, Baoquan Yao, Xiaolei Liu Xiaolei Liu, Xiao Yu Xiao Yu, Xiaoming Duan Xiaoming Duan, Youlun Ju Youlun Ju, and Yuezhu Wang Yuezhu Wang. "Resonantly pumped Q-switched Er:GdVO4 laser." Chinese Optics Letters 11, no. 3 (2013): 031405–31407. http://dx.doi.org/10.3788/col201311.031405.

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4

Welford, D. "Passively Q-switched lasers." IEEE Circuits and Devices Magazine 19, no. 4 (July 2003): 31–36. http://dx.doi.org/10.1109/mcd.2003.1217615.

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5

LOWE, NICHOLAS J., DEBRA LUFTMAN, and DAVID SAWCER. "Q-switched Ruby Laser." Journal of Dermatologic Surgery and Oncology 20, no. 5 (May 1994): 307–11. http://dx.doi.org/10.1111/j.1524-4725.1994.tb01629.x.

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6

Choudhary, Amol, Shonali Dhingra, Brian D'Urso, Pradeesh Kannan, and David P. Shepherd. "Graphene Q-Switched Mode-Locked and Q-Switched Ion-Exchanged Waveguide Lasers." IEEE Photonics Technology Letters 27, no. 6 (March 15, 2015): 646–49. http://dx.doi.org/10.1109/lpt.2015.2389631.

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7

Che Mat, Fauziah, Moh Yasin, Anas Abdul Latiff, and Sulaiman Wadi Harun. "Graphene Oxide Film as Passive Q-switcher in Erbium-doped Fiber Laser Cavity." Photonics Letters of Poland 9, no. 3 (September 30, 2017): 100. http://dx.doi.org/10.4302/plp.v9i3.755.

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Анотація:
All-fiber passively Q-switched fiber lasers have been demonstrated by using graphene oxide (GO) Q-switcher for possible applications in telecommunication, laser processing, fiber sensing and medical community. The GO material was obtained through a modified Hummers method from expanded acid washed graphite flakes and it was embedded into a polyvinyl alcohol (PVA) film to form a saturable absorber (SA) device. The Q-switched pulse operates at 1563.3 nm with a repetition rate that can be tuned from 44.33 kHz to 61.77 kHz as the pump power changes from 39 mW to 96 mW. The highest repetition rate of 61.77 kHz is achieved at a pump power of 96 mW and it is observed that the Q-switched pulse produced maximum pulse energy of 0.054 nJ and pulse width of 5.57 ?s at 96 mW pump power. Full Text: PDF ReferencesJ. Zayhowski and C. Dill, "Coupled-cavity electro-optically Q-switched Nd:YVO4 microchip lasers", Optics letters 20, 716 (1995). CrossRef C.-x. Gao, W. Zhao, Y.-s. Wang, S.-l. Zhu, G.-f. Chen, and Y.-g. Wang, "Passive Q-switched fiber laser with SESAM in ytterbium-doped double-clad fiber", 27th International congress on High-Speed Photography and Photonics, 62794G (2007). CrossRef M. Ahmed, N. Ali, Z. Salleh, A. Rahman, S. Harun, M. Manaf, "Q-switched erbium doped fiber laser based on single and multiple walled carbon nanotubes embedded in polyethylene oxide film as saturable absorber", Optics & Laser Technology 65, 25 (2015). CrossRef S. Harun, M. Ismail, F. Ahmad, M. Ismail, R. Nor, N. Zulkepely, et al., "A Q-switched erbium-doped fiber laser with a carbon nanotube based saturable absorber", Chinese Physics Letters 29, 114202 (2012). CrossRef A. Martinez and Z. Sun, "Nanotube and graphene saturable absorbers for fibre lasers", Nat Photon 7, 842 (2013). CrossRef J. Boguslawski, J. Sotor, G. Sobon, R. Kozinski, K. Librant, M. Aksienionek, et al., "Graphene oxide paper as a saturable absorber for Er- and Tm-doped fiber lasers", Photonics Research 3, 119 (2015). CrossRef H. Ahmad, F. D. Muhammad, M. Z. Zulkifli, and S. W. Harun, "Q-switched pulse generation from an all-f iber distributed Bragg reflector laser using graphene as saturable absorber", Chinese Optics Letters 11, 071401 (2013). CrossRef
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8

Thomas, G. M., A. Minassian, X. Sheng, and M. J. Damzen. "Diode-pumped Alexandrite lasers in Q-switched and cavity-dumped Q-switched operation." Optics Express 24, no. 24 (November 15, 2016): 27212. http://dx.doi.org/10.1364/oe.24.027212.

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9

Razak, Nurul Nadia, Moh Yasin, Zahriladha Zakaria, Anas A. Latiff, and Sulaiman Wadi Harun. "Q-switched fiber laser with tungsten disulfide saturable absorber prepared by drop casting method." Photonics Letters of Poland 9, no. 3 (September 30, 2017): 103. http://dx.doi.org/10.4302/plp.v9i3.752.

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Анотація:
We experimentally demonstrate a passively Q-switched erbium-doped fiber laser (EDFL) operation by using a saturable absorber (SA) based on tungsten disulfide (WS2). By depositing WS2 thin film layer at the end of optical fiber ferrule, we fabricated a SA device. The SA is incorporated into an Erbium-doped fiber laser (EDFL) cavity to generate a Q-switching pulses train operating at 1559.8 nm. As a result, stable passively Q-switched EDFL pulses with maximum output pulse energy of 123.2 nJ, repetition rate of 104.1 kHz, and pulse width of 9.61 us are achieved when the input pump power is 142.1 mW at the wavelength of 980 nm. Full Text: PDF ReferencesC. Gao, W. Zhao, Y. Wang, S. Zhu, G. Chen, and Y. Wang, "Passive Q-switched fiber laser with SESAM in ytterbium-doped double-clad fiber", in 27th International congress on High-Speed Photography and Photonics (International Society for Optics and Photonics, 2007). CrossRef M. Ahmed, N. Ali, Z. Salleh, A. Rahman, S. Harun, M. Manaf, et al., "Q-switched erbium doped fiber laser based on single and multiple walled carbon nanotubes embedded in polyethylene oxide film as saturable absorber", Optics & Laser Technology 65, 25 (2015). CrossRef M. A. Ismail, F. Ahmad, S. W. Harun, H. Arof and H. Ahmad, "A Q-switched erbium-doped fiber laser with a graphene saturable absorber", Laser Phys. Lett. 10, 025102 (2013). CrossRef G. Sobon, J. Sotor, J. Jagiello, R. Kozinski, K. Librant, M. Zdrojek, L. Lipinska, and K. M. Abramski, "Linearly polarized, Q-switched Er-doped fiber laser based on reduced graphene oxide saturable absorber", Appl. Phys. Lett. 101, 241106 (2012). CrossRef N. H. M. Apandi, F. Ahmad, S. N. F. Zuikafly, M. H. Ibrahim, S. W. Harun, "Bismuth (III) Telluride (Bi2Te3) topological insulator embed in PVA as passive Q-switcher at 2 micron region", Photon. Lett. of Poland 8, 101 (2016). CrossRef J. Bogusławski, G. Soboń, K. Tarnowski, R. Zybała, K. Mars, A. Mikuła, K. M. Abramski and J. Sotor, "All-polarization-maintaining-fiber laser Q-switched by evanescent field interaction with Sb2Te3 saturable absorber", Optical Engineering 55, 081316 (2016). CrossRef Z. Luo, Y. Huang, M. Zhong, Y. Li, J. Wu, B. Xu, H. Xu, Z. Cai, J. Peng, and J. Weng, "1-, 1.5-, and 2-um fiber lasers Q-switched by a broadband few-layer MoS2 saturable absorber", J. Lightwave Technol. 32, 4679 (2014). CrossRef N. N. Razak, A. A. Latiff, Z. Zakaria and S. W. Harun, "Q-switched Erbium-doped Fiber Laser with a Black Phosphorus Saturable Absorber", Photon. Lett. of Poland 9, 72 (2017). CrossRef D. Mao, Y. Wang, C. Ma, L. Han, B. Jiang, X. Gan, S. Hua, W. Zhang, T. Mei, and J. Zhao, "WS2 mode-locked ultrafast fiber laser", Sci Rep 5, 7965 (2015). CrossRef K. Wu, X. Zhang, J. Wang, X. Li, and J. Chen, "WS2 as a saturable absorber for ultrafast photonic applications of mode-locked and Q-switched lasers", Optics Express 23, 11453 (2015). CrossRef K. Lau, A. Latif, M. A. Bakar, F. Muhammad, M. Omar, and M. Mahdi, "Mechanically deposited tungsten disulfide saturable absorber for low-threshold Q-switched erbium-doped fiber laser", Applied Physics B 123, 221 (2017). CrossRef H. Chen, Y. Chen, J. Yin, X. Zhang, T. Guo, and P. Yan, "High-damage-resistant tungsten disulfide saturable absorber mirror for passively Q-switched fiber laser", Optics Express 24, 16287 (2016). CrossRef J. Lin, K. Yan, Y. Zhou, L. Xu, C. Gu, and Q. Zhan, "Tungsten disulphide based all fiber Q-switching cylindrical-vector beam generation", Applied Physics Letters 107, 191108 (2015). CrossRef H. Chen, Y. Chen, J. Yin, X. Zhang, T. Guo, and P. Yan, "High-damage-resistant tungsten disulfide saturable absorber mirror for passively Q-switched fiber laser", Optics Express 24, 16287 (2016). CrossRef K. Mohamed, B. Hamida, S. Khan, L. Hussein, M. Ahmat, E. Ismail, N. Kadir, A. Latif, S. Harun, "Q-switched erbium-doped fibre laser based on molybdenum disulfide and tungsten disulfide as saturable absorbers," Ukrainian Journal of Physical Optics, 18 (2017). CrossRef
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10

PFEIFFER, NAOMI. "Q-Switched Laser Treatment Advantages." Journal of Clinical Laser Medicine & Surgery 13, no. 1 (February 1995): 41–42. http://dx.doi.org/10.1089/clm.1995.13.41.

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11

Cheng-Wei, Yang, Huo Yu-Jing, He Shu-Fang, Yin Xiao-Dong, and Zhang Bao-Shun. "Controllable Passively Q-Switched Laser." Chinese Physics Letters 22, no. 1 (December 23, 2004): 117–19. http://dx.doi.org/10.1088/0256-307x/22/1/033.

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12

Li, Diao, Hui Xue, Mei Qi, Yadong Wang, Sinan Aksimsek, Nikolai Chekurov, Wonjae Kim, et al. "Graphene actively Q-switched lasers." 2D Materials 4, no. 2 (May 5, 2017): 025095. http://dx.doi.org/10.1088/2053-1583/aa6e6b.

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13

Wang, Zhao-Wei, Xiu-Fang Chen, Jing-Liang He, Xian-Gang Xu, Bai-Tao Zhang, Ke-Jian Yang, Rui-Hua Wang, and Xun-Min Liu. "Graphene Q-Switched Cr:ZnSe Laser." IEEE Journal of Quantum Electronics 51, no. 5 (May 2015): 1–5. http://dx.doi.org/10.1109/jqe.2015.2410288.

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14

Vorob'ev, A. P., V. A. Iskhakov, Viktor I. Mashendzhinov, V. E. Revich, Mikhail A. Rotinyan, and M. A. Shur. "Q-switched chemical HF laser." Quantum Electronics 28, no. 7 (July 31, 1998): 589–93. http://dx.doi.org/10.1070/qe1998v028n07abeh001278.

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15

Bai, H. L., L. P. Guo, B. M. Xie, W. Zhang, and M. X. Li. "Self-Q-switched Nd:GGG laser." Optik 215 (August 2020): 164799. http://dx.doi.org/10.1016/j.ijleo.2020.164799.

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16

Catoni, I. "Pigmentations et lasers Q switched." Annales de Dermatologie et de Vénéréologie 141, no. 6-7 (June 2014): S15. http://dx.doi.org/10.1016/j.annder.2014.04.015.

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17

Latina, M., D. H. Shin, R. J. Noecker, R. Ritch, J. Liebmann, and A. B. Sibayan. "Q-SWITCHED 532 nm Nd." Journal of Glaucoma 8, Supplement 1 (February 1999): S3. http://dx.doi.org/10.1097/00061198-199902001-00005.

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18

Zayhowski, J. J., and P. L. Kelley. "Optimization of Q-switched lasers." IEEE Journal of Quantum Electronics 27, no. 9 (1991): 2220–25. http://dx.doi.org/10.1109/3.135181.

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19

Beyatli, Ersen, Alphan Sennaroglu, and Umit Demirbas. "Self-Q-switched Cr:LiCAF laser." Journal of the Optical Society of America B 30, no. 4 (March 14, 2013): 914. http://dx.doi.org/10.1364/josab.30.000914.

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20

Faoro, Raffaele, Martin Kadankov, Daniela Parisi, Stefano Veronesi, Mauro Tonelli, Valentin Petrov, Uwe Griebner, Martha Segura, and Xavier Mateos. "Passively Q-switched Tm:YLF laser." Optics Letters 37, no. 9 (April 27, 2012): 1517. http://dx.doi.org/10.1364/ol.37.001517.

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21

Ming Shuxian, 明淑娴, 魏志伟 Wei Zhiwei, 刘. 萌. Liu Meng, 罗爱平 Luo Aiping, 徐文成 Xu Wencheng, and 罗智超 Luo Zhichao. "Coexistence of Q-switched and Q-switched mode-locking pulse dual-wavelength fiber laser." Infrared and Laser Engineering 48, no. 8 (2019): 805009. http://dx.doi.org/10.3788/irla201948.0805009.

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22

Ismail, E. I., A. Kadir, A. A. Latiff, H. Ahmad, and S. W. Harun. "Q-switched erbium-doped fiber laser operating at 1502nm with molybdenum disulfide saturable absorber." Journal of Nonlinear Optical Physics & Materials 25, no. 02 (June 2016): 1650025. http://dx.doi.org/10.1142/s0218863516500259.

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Анотація:
We demonstrate a Q-switched Erbium-doped fiber laser (EDFL) using a molybdenum disulfide (MoS[Formula: see text]-based saturable absorber (SA) as a Q-switcher. The SA is prepared from commercial available MoS2 pristine flakes with final solution concentration of [Formula: see text]0.02[Formula: see text]mg/ml. The Q-switcher is assembled by depositing a dried MoS2 onto a fiber ferule facet before it is matched with another clean ferrule via a connector. By increasing the pump power from 120[Formula: see text]mW to 160[Formula: see text]mW, stable generation of Q-switched EDFL incorporating MoS2 SA has been obtained at 1502[Formula: see text]nm wavelength. The pulse repetition rate also varies from 45.2[Formula: see text]kHz to 66.0[Formula: see text]kHz with pulse width which is increased from 2.73[Formula: see text][Formula: see text]s to 3.19[Formula: see text][Formula: see text]s. At pump power of 160[Formula: see text]mW, we successfully generated the maximum average output power of 0.51[Formula: see text]mW, corresponding to a pulse energy of 7.8[Formula: see text]nJ.
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23

Xia, Danqing, Zenggui Mo, Gang Zhao, Fei Guo, Chao You, Ze Chen, Xiao Zhu, Zhengjia Li, Di Chen, and Xiaohong Fan. "Nd:YAG Lasers Treating of Carious Lesion and Root Canal In Vitro." International Journal of Photoenergy 2012 (2012): 1–5. http://dx.doi.org/10.1155/2012/584079.

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Анотація:
Dental caries is a transmissible bacterial disease process, with cavities at the end, and caused by acids from bacterial metabolism. The essence of dental treatment is to clean and disinfect bacterial contamination from the tooth. In this work, we tried to demonstrate the cleaning and disinfecting effects of Nd:YAG laser irradiation on dental carious lesion and root canal in vitro. Acousto-optic Q-switched quasicontinuous and Cr3+:YAG crystal Q-switched pulse Nd:YAG lasers were employed to treat caries lesion and the root canal, respectively. Results showed that acousto-optic Q-switched quasicontinuous Nd:YAG laser irradiation and Cr3+:YAG crystal Q-switched pulse Nd:YAG laser irradiation could rapidly clean decayed material and bacterial contamination from dental carious lesion and the narrow tail end of root canal with minimally invasive in vitro, respectively. It was concluded that acousto-optic Q-switched quasicontinuous laser irradiation may be a rapid and effective alternative caries treatment, and Cr3+:YAG crystal Q-switched pulse Nd:YAG laser irradiation may be an effective method for canal cleaning and disinfecting during root canal therapy.
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24

Shuo Han, Shuo Han, Xianlei Li Xianlei Li, Honghao Xu Honghao Xu, Yongguang Zhao Yongguang Zhao, Haohai Yu Haohai Yu, Huaijin Zhang Huaijin Zhang, Yongzhong Wu Yongzhong Wu, Zhengping Wang Zhengping Wang, Xiaopeng Hao Xiaopeng Hao, and Xinguang Xu Xinguang Xu. "Graphene Q-switched 0.9-\mu m Nd:La0.11Y0.89VO4 laser." Chinese Optics Letters 12, no. 1 (2014): 011401–11403. http://dx.doi.org/10.3788/col201412.011401.

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25

Li Pingxue, 李平雪, 张光举 Zhang Guangju, 张晗 Zhang Han, 赵楚军 Zhao Chujun, 池俊杰 Chi Junjie, 胡浩伟 Hu Haowei, 姚毅飞 Yao Yifei, and 苏宁 Su Ning. "Q-Switched and Q-Switched Mode-Locking Operation from Nd∶YVO4Laser using Reflective MoS2Saturable Absorber." Acta Optica Sinica 35, s1 (2015): s114003. http://dx.doi.org/10.3788/aos201535.s114003.

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26

Guan, Xiaofeng, Jiawei Wang, Yuzhao Zhang, Bin Xu, Zhengqian Luo, Huiying Xu, Zhiping Cai, Xiaodong Xu, Jian Zhang, and Jun Xu. "Self-Q-switched and wavelength-tunable tungsten disulfide-based passively Q-switched Er:Y2O3 ceramic lasers." Photonics Research 6, no. 9 (August 2, 2018): 830. http://dx.doi.org/10.1364/prj.6.000830.

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27

Sojka, Lukasz, Lukasz Pajewski, Samir Lamrini, Mark Farries, Trevor M. Benson, Angela B. Seddon, and Slawomir Sujecki. "Experimental Investigation of Actively Q-Switched Er3+:ZBLAN Fiber Laser Operating at around 2.8 µm." Sensors 20, no. 16 (August 18, 2020): 4642. http://dx.doi.org/10.3390/s20164642.

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Анотація:
A diode-pumped Q-switched Er3+:ZBLAN double-clad, single-transverse mode fiber laser is practically realized. The Q-switched laser characteristics as a function of pump power, repetition rate, and fiber length are experimentally investigated. The results obtained show that the Q-switched operation with 46 µJ pulse energy, 56 ns long pulses, and 0.821 kW peak power is achieved at a pulse repetition rate of 10 kHz. To the best of our knowledge, this is the highest-ever demonstrated peak power emitted from an actively Q-switched, single-transverse mode Er3+:ZBLAN fiber laser operating near 2.8 µm.
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28

Mohd Rusdi, Muhamad Khairul Nizam, Afiq Arif Aminuddin Jafry, Nur Farhanah Zulkifli, Farina Saffa Mohamad Samsamnun, Mohamad Badrol Hisyam Mahyuddin, SULAIMAN WADI HARUN, Mohd Shahnan Zainal Abidin, and Norazlina Saidin. "PASSIVELY Q-SWITCHED YTTERBIUM-DOPED FIBER LASER EMPLOYING SAMARIUM OXIDE AS SATURABLE ABSORBER." IIUM Engineering Journal 22, no. 1 (January 4, 2021): 58–67. http://dx.doi.org/10.31436/iiumej.v22i1.1396.

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Анотація:
The rapid developments in transition metal dichalcogenide materials as a saturable absorber (SAs) have been demonstrated to be an effective method for generating Q-switched fiber laser. This work, reports on the generation of Q-switched fiber laser in the 1-micron region using samarium oxide (Sm2O3) saturable absorber (SA). The Sm2O3 thin film SA was fabricated in- The rapid developments in transition metal dichalcogenide materials as saturable absorbers (SAs) have been reported to be efficient materials for generating Q?switched fiber lasers. In this paper, we report on the use of samarium oxide (Sm2O3) saturable absorber (SA) for 1-micron Q-switched fiber laser generation. The Sm2O3 thin film SA was constructed in-house through which the Sm2O3 powder was mixed and stirred in polyvinyl alcohol (PVA) solution. It was then integrated into the ytterbium-doped fiber laser (YDFL) ring cavity, hence producing a sequence of Q-switched pulsed lasers at 1062.49 nm wavelength. The stable pulse train appeared from 69.97 to 111.1 kHz between the applied pump power of 57 mW to 96 mW. The signal-to-noise ratio (SNR) of 38.56 dB was recorded at the 57 mW pump power, whereas the pulse energy raised until 15.21 nJ at 96 mW. These results showed that the Sm2O3 could be a favourable SA material to iniatiate Q-switched ytterbium-doped pulsed fiber laser. ABSTRAK: Perkembangan pesat dalam bahan logam peralihan dichalcogenide sebagai bahan penyerap boleh larut (SAs) telah dilaporkan sebagai kaedah yang berkesan bagi menjana laser fiber Q-switched. Kajian ini menggunakan samarium oksida (Sm2O3) saturable absorber (SA) bagi menjana laser gentian Q-switched 1-Micron. Filem nipis Sm2O3 SA telah dihasilkan melalui campuran serbuk Sm2O3 ke dalam cecair polivinil alkohol (PVA) dalam persekitaran makmal. Kemudian, ia diintegrasi ke dalam rongga gelang laser gentian dop-ytterbium (YDFL), lalu menghasilkan denyut laser Q-switched stabil pada jarak gelombang 1062.49 nm. Denyutan stabil muncul dari 69.97 kepada 111.1 kHz pada kuasa pam yang dikenakan antara 57 mW hingga 96 mW. Nisbah isyarat-hinggar (SNR) pada 38.56 dB telah direkodkan pada pam kuasa 57 mW, sementara denyut tenaga ditingkatkan kepada 15.21 nJ pada 96 mW. Keputusan menunjukkan Sm2O3 merupakan bahan SA penggalak yang memuaskan bagi menjana denyut laser gentian dop-ytterbium Q-switched. house. It was integrated into the ytterbium-doped fiber laser (YDFL) ring cavity, hence producing a stable passively Q-switched laser operating at 1062.49 nm wavelength. Stable pulse train appeared from 69.97 to 111.1 kHz at the tunable pump power of 57 mW to 96 mW. The pulse energy of up to 15.21 nJ and signal-to-noise ratio (SNR) of 38.56 dB for the fundamental frequency were recorded. The results showed that the Sm2O3 could be a favourable SA material for the broadband generation of Q-switched fiber laser.
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29

Chen, Hengjun, Weichao Yao, Hiyori Uehara, and Ryo Yasuhara. "Actively Q-switched Tb:LiYF4 green lasers." Applied Physics Express 14, no. 6 (May 18, 2021): 062002. http://dx.doi.org/10.35848/1882-0786/abfeb4.

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30

Popov, E. E., A. A. Sergeev, A. P. Pogoda, V. M. Petrov, and A. S. Boreysho. "Electro-optic Q-switched Cr:LiSAF laser." Journal of Physics: Conference Series 2094, no. 2 (November 1, 2021): 022034. http://dx.doi.org/10.1088/1742-6596/2094/2/022034.

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Анотація:
Abstract We demonstrate electro-optic Q-switched solid state laser with Cr:LiSAF active medium. A single 50 ns pulse with 14 mJ of output energy is demonstrated. Simultaneous generation of several peaks with a step of 1.4 nm within the spectrum envelope with a full width at half maximum of 10.3 nm is demonstrated. For an electro-optic Q-switched mode a Pockels cell is used. Demonstrated laser can be used in differential absorption lidar systems.
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31

Zayhowski, J. J. "Q-switched operation of microchip lasers." Optics Letters 16, no. 8 (April 15, 1991): 575. http://dx.doi.org/10.1364/ol.16.000575.

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32

Fan, T. Y., S. Klunk, and G. Henein. "Diode-pumped Q-switched Yb:YAG laser." Optics Letters 18, no. 6 (March 15, 1993): 423. http://dx.doi.org/10.1364/ol.18.000423.

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33

Stojkovic, M., B. Seitz, A. Langenbucher, A. Viestenz, C. Hofmann-Rummelt, U. Schl??tzer-Schrehardt, M. K??chle, and G. O. H. Naumann. "Q-Switched Erbium:YAG Laser Corneal Trephination." Cornea 23, no. 1 (January 2004): 50–60. http://dx.doi.org/10.1097/00003226-200401000-00009.

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34

Al‐Shiraida, Y. S., M. Paulson, T. Rosadiuk, J. Tulip, and P. Pace. "Pulsed Q‐switched CO2 waveguide laser." Review of Scientific Instruments 63, no. 7 (July 1992): 3575–78. http://dx.doi.org/10.1063/1.1143767.

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35

Kuznetsov, A. G., E. V. Podivilov, and S. A. Babin. "Actively Q-switched Raman fiber laser." Laser Physics Letters 12, no. 3 (February 11, 2015): 035102. http://dx.doi.org/10.1088/1612-2011/12/3/035102.

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36

Li, Qinan, Baohua Feng, Dongxiang Zhang, Zhiguo Zhang, Huaijin Zhang, and Jiyang Wang. "Q-switched 935 nm Nd:CNGG laser." Applied Optics 48, no. 10 (March 25, 2009): 1898. http://dx.doi.org/10.1364/ao.48.001898.

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37

Fellew, Matthew T., and Graham E. Town. "All-fiber periodically Q-switched laser." Applied Optics 49, no. 24 (August 12, 2010): 4520. http://dx.doi.org/10.1364/ao.49.004520.

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38

Conroy, R. S., T. Lake, G. J. Friel, A. J. Kemp, and B. D. Sinclair. "Self-Q-switched Nd:YVO_4 microchip lasers." Optics Letters 23, no. 6 (March 15, 1998): 457. http://dx.doi.org/10.1364/ol.23.000457.

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39

Sousa, J. M., and O. G. Okhotnikov. "Multiple wavelength Q-switched fiber laser." IEEE Photonics Technology Letters 11, no. 9 (September 1999): 1117–19. http://dx.doi.org/10.1109/68.784212.

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40

Xiao, Kun, Bin Lin, Qiu-Lin Zhang, Dong-Xiang Zhang, Bao-hua Feng, Jing-Liang He, Huai-Jin Zhang, and Ji-Yang Wang. "Q-switched 1329 nm Nd:CNGG laser." Applied Optics 54, no. 23 (August 6, 2015): 7071. http://dx.doi.org/10.1364/ao.54.007071.

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41

Zhou, Yi, Quang Thai, Y. C. Chen, and Shouhuan Zhou. "Monolithic Q-switched Cr,Yb:YAG laser." Optics Communications 219, no. 1-6 (April 2003): 365–67. http://dx.doi.org/10.1016/s0030-4018(03)01312-9.

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42

Maksimov, Yurii P., Viktor I. Mashendzhinov, V. E. Revich, Mikhail A. Rotinyan, V. V. Sudarikov, Nikolai E. Tret'yakov, Igor' A. Fedorov, Vadim A. Eller, and Alla L. Etsina. "Q-switched chemical cw HF laser." Quantum Electronics 35, no. 3 (March 31, 2005): 233–36. http://dx.doi.org/10.1070/qe2005v035n03abeh002834.

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43

Kim, D. J., J. W. Kim, and W. A. Clarkson. "Q-switched Nd:YAG optical vortex lasers." Optics Express 21, no. 24 (November 21, 2013): 29449. http://dx.doi.org/10.1364/oe.21.029449.

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44

Jiang, Wei, Siqi Zhu, Weidong Chen, Haifeng Lin, Yumeng Liu, Zaijun Chen, Ge Zhang, Yihong Chen, Yanmin Duan, and Zhenqiang Chen. "Q-Switched Yb:YAG/YVO4 Raman Laser." IEEE Photonics Technology Letters 27, no. 10 (May 15, 2015): 1080–83. http://dx.doi.org/10.1109/lpt.2015.2407576.

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45

Gaponenko, Maxim, Nikolay Kuleshov, and Thomas Sudmeyer. "Passively $Q$ -Switched Thulium Microchip Laser." IEEE Photonics Technology Letters 28, no. 2 (January 15, 2016): 147–50. http://dx.doi.org/10.1109/lpt.2015.2487562.

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46

Peng, Zhenfang, Yufei Ma, Renpeng Yan, Xudong Li, Ying He, Xin Yu, Yao Tong, Lin Ge, and Jiang Li. "Doubly Q-Switched Nd:YAG Ceramic Laser." Journal of Russian Laser Research 39, no. 2 (March 2018): 187–91. http://dx.doi.org/10.1007/s10946-018-9706-4.

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47

Ma, Yufei, Hongtao Dang, Fang Peng, Shoujun Ding, Nianliu He, Bing Liu, and Qingli Zhang. "A Doubly Q-Switched Nd:GdYTaO4 Laser." Journal of Russian Laser Research 40, no. 2 (March 2019): 188–92. http://dx.doi.org/10.1007/s10946-019-09787-3.

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48

Cesario-Kelly, K. M., and J. S. Nelson. "Q-switched laser treatment of tattoos." Lasers in Medical Science 12, no. 2 (June 1997): 89–98. http://dx.doi.org/10.1007/bf02763977.

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49

Passeron, T., and H. Cartier. "Les lasers déclenchés ou Q-switched." Annales de Dermatologie et de Vénéréologie 140, no. 6-7 (June 2013): S161. http://dx.doi.org/10.1016/j.annder.2013.03.034.

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50

Serres, Josep Maria, Venkatesan Jambunathan, Xavier Mateos, Pavel Loiko, Antonio Lucianetti, Tomas Mocek, Konstantin Yumashev, et al. "Graphene Q-Switched Compact Yb:YAG Laser." IEEE Photonics Journal 7, no. 5 (October 2015): 1–7. http://dx.doi.org/10.1109/jphot.2015.2476756.

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