Passively Q‐switched Tm:YAG ceramic laser with TiS2 saturable absorber

A two‐dimensional titanium disulfide (TiS2) nanosheet film is prepared on a YAG crystal substrate. The saturated absorption behavior of TiS2 on the YAG substrate is investigated. Then, TiS2 is successfully employed as a modulation element to develop a Tm:YAG ceramic eye‐safe pulsed laser. With a 7.0...

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Published in	Microwave and optical technology letters Vol. 66; no. 1
Main Authors	Li, Shixia, Cai, Enlin, Zhang, Kun, Xia, Feng, Kong, Weijing
Format	Journal Article
Language	English
Published	New York Wiley Subscription Services, Inc 01.01.2024
Subjects	Absorbers Nanostructure passive Q‐switching Pulse duration Pulsed lasers saturable absorber Substrates titanium disulfide Tm:YAG ceramic YAG lasers
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Abstract	A two‐dimensional titanium disulfide (TiS2) nanosheet film is prepared on a YAG crystal substrate. The saturated absorption behavior of TiS2 on the YAG substrate is investigated. Then, TiS2 is successfully employed as a modulation element to develop a Tm:YAG ceramic eye‐safe pulsed laser. With a 7.04 W absorbed pump light and a 3% transmission of output coupler, the greatest average optical power, and the least pulse width (PD) are 233 mW and 524 ns, separately. The pulse repeated frequency of 69 kHz is generated, while the single pulse energy (SPE) is 3.38 µJ. Based on the experimental results, TiS2 nanosheet films possess the practical value as saturable absorbers for 2.0 μm eye‐safe pulsed lasers.
AbstractList	A two‐dimensional titanium disulfide (TiS2) nanosheet film is prepared on a YAG crystal substrate. The saturated absorption behavior of TiS2 on the YAG substrate is investigated. Then, TiS2 is successfully employed as a modulation element to develop a Tm:YAG ceramic eye‐safe pulsed laser. With a 7.04 W absorbed pump light and a 3% transmission of output coupler, the greatest average optical power, and the least pulse width (PD) are 233 mW and 524 ns, separately. The pulse repeated frequency of 69 kHz is generated, while the single pulse energy (SPE) is 3.38 µJ. Based on the experimental results, TiS2 nanosheet films possess the practical value as saturable absorbers for 2.0 μm eye‐safe pulsed lasers.
Author	Zhang, Kun Li, Shixia Xia, Feng Cai, Enlin Kong, Weijing
Author_xml	– sequence: 1 givenname: Shixia surname: Li fullname: Li, Shixia email: lishixia@qdu.edu.cn organization: Qingdao University – sequence: 2 givenname: Enlin surname: Cai fullname: Cai, Enlin organization: Qingdao University of Science & Technology – sequence: 3 givenname: Kun surname: Zhang fullname: Zhang, Kun organization: Qingdao University – sequence: 4 givenname: Feng surname: Xia fullname: Xia, Feng organization: Qingdao University – sequence: 5 givenname: Weijing surname: Kong fullname: Kong, Weijing organization: Qingdao University
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SubjectTerms	Absorbers Nanostructure passive Q‐switching Pulse duration Pulsed lasers saturable absorber Substrates titanium disulfide Tm:YAG ceramic YAG lasers
Title	Passively Q‐switched Tm:YAG ceramic laser with TiS2 saturable absorber
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