Narrow linewidth CW and Q-switched erbium-dopedfibre loop laser

Kee, H.H.; Lees, G.P.; Newson, T.P.

doi:10.1049/el:19980913

Cited by 34 publications

(9 citation statements)

References 12 publications

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“…These benefits are of vital importance to a variety of practical applications, for example, industrial material processing and optical information transmission, where the output laser pulses require timing coincidence with input electric pulses. Traditionally, actively Q‐switched fiber lasers are implemented by bulk electro‐optical or acoustic‐optic modulators which are typically expensive, structurally complicated, and optically narrowband. Moreover, these electrically‐modulated Q‐switchers seem to be unsuitable for all‐optical applications in future, including all‐optical network and computing.…”

Section: Introductionmentioning

confidence: 99%

An All‐Optical, Actively Q‐Switched Fiber Laser by an Antimonene‐Based Optical Modulator

Wang

Huang

Wang

et al. 2019

Laser & Photonics Reviews

137

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Q‐switched fiber lasers are of great interest in industrial material processing, nonlinear frequency conversion, spectroscopy etc. However, passive Q‐switching possesses drawbacks of degradation and failure of the saturable absorber and the difficulty in accurate modification of the repetition rate. To overcome these issues, active Q‐switching that can normally modulate the cavity quality‐factor by an externally‐driven Q‐switcher is in high demand. Herein, an actively Q‐switched laser with antimonene‐based all‐optical modulator is devised based on the high photo‐thermal efficiency (48%) and broadband response in antimonene. It is demonstrated that this actively modulated laser represents all‐optically tunable output parameters (e.g., output repetition rate), environmental stability, and easy synchronization. It is anticipated that this actively antimonene‐based all‐optical modulator with advantages of large modulation depth, low energy consumption, and high conversion efficiency has great potential in all‐optical information processing and pulsed laser engineering.

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Section: Introductionmentioning

confidence: 99%

An All‐Optical, Actively Q‐Switched Fiber Laser by an Antimonene‐Based Optical Modulator

Wang

Huang

Wang

et al. 2019

Laser & Photonics Reviews

137

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“…Passively Qswitched lasers have very simple structures and can supply short and powerful pulses operation, but the repetition frequency can not be modified with independence of other operation parameters [1][2][3]. Research has been undertaken to realized-stable repetition frequency by using actively Q-switched (AQ) fiber laser, such lasers have very good performance, but their Q-switching operations are achieved by the use of acousto-optics modulators [4], electro-optics modulators [5], or an intensity modulator [6], which can not only degrade the beam quality and the laser stability, but increase the complication design of a practical device.…”

Section: Introductionmentioning

confidence: 99%

“…In recent years, there has been growing interests in investigating electromagnetic band gap (EBG) structures, and diversified kinds of EBG structures have been suggested for the applications in the electromagnetic and antenna community [1][2][3][4][5][6][7]. Because the period of EBG lattices has to be a half-wavelength at the band-gap frequency, practical application of EBG structures usually has difficulty in accommodating its physical size, and realizing compact size for EBG structure is one of the most important issues to be solved.…”

Section: Introductionmentioning

confidence: 99%

“…Recently high impedance surfaces (HIS), as a successful compact EBG structure consisted of small metal pads with grounding vias, have been exclusively investigated [5][6][7]. However, in some practical applications, such as in antenna array, the spacing of neighboring antenna element has to be less than a half wavelength of operating frequency, the Sievenpiper HIS structure is still too large to be fixed on the antenna.…”

Section: Introductionmentioning

confidence: 99%

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All‐fiber actively Q‐switched Er³⁺/Yb³⁺ co‐doped ring laser

Zhang¹,

Lu²,

Wang³

2007

Micro & Optical Tech Letters

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We report on a all-fiber actively Q-switched laser based on a Mach-Zehnder interferometer (MZI). One of the arms of the MZI is bonded on a piezoelectric transducer (PZT). The path length difference between those two arms will change when a RF electric signal is applied drives the PZT, allowing control of the Q-factor of the cavity and, thus, performing active Q-switching. Using Er 3ϩ /Yb 3ϩ co-doped fiber (EYDF) and a maximum pump power of 712 mW, Q-switch pulses with peak power of 2.2 W and pulse width of 1.2 s were obtained. Furthermore, our result also shows that, to generate stable Q-switched-pulses, with different pump power, one must select different modulation frequency, this phenomenon is experimentally proved for the first time to our knowledge. The pulse repetition rate of the laser can be adjusted from few Hz up to 25 kHz. Figure 3 Output of the actively Q-switched laser at the same modulation frequency of 11 KHz and the different pump power. (a), (b), and (c) correspond to the pump power of 712, 547, and 340 mW, respectivelyABSTRACT: A novel electromagnetic Band-Gap (EBG) scheme is presented for size reduction. The proposed structure can be considered as one kind of distorted Sievenpiper High Impedance Surface (HIS) in a spiral shape, while it becomes extremely compact in size. Its design is detailed in this study, and two experimental results are presented.

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“…On the other hand, active Q-switching is independently and accurately controlled by an electrical signal, which triggers the modulator. The bulk approach, such as electro-optic (Kee et al, 1998) or acousto-optic modulators (Álvarez-Chávez et al, 2000), is not adapted to compact fiber laser systems required nowadays; further they have large optical coupling losses and stringent alignment requirements. For these reasons, the all-fiber approach is of permanent interest, being advantageous in terms of cost, loss, packaging, robustness, and simplicity.…”

Section: Q-switching By Intermodal Acousto-optic Modulation In An Optmentioning

confidence: 99%

Applications of In–Fiber Acousto–Optic Devices

Cuadrado-Laborde¹,

Dı́ez²,

Andrés³

et al. 2011

Acoustic Waves - From Microdevices to Helioseismology

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Narrow linewidth CW and Q-switched erbium-dopedfibre loop laser

Cited by 34 publications

References 12 publications

An All‐Optical, Actively Q‐Switched Fiber Laser by an Antimonene‐Based Optical Modulator

An All‐Optical, Actively Q‐Switched Fiber Laser by an Antimonene‐Based Optical Modulator

All‐fiber actively Q‐switched Er³⁺/Yb³⁺ co‐doped ring laser

Applications of In–Fiber Acousto–Optic Devices

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Narrow linewidth CW and Q-switched erbium-dopedfibre loop laser

Cited by 34 publications

References 12 publications

An All‐Optical, Actively Q‐Switched Fiber Laser by an Antimonene‐Based Optical Modulator

An All‐Optical, Actively Q‐Switched Fiber Laser by an Antimonene‐Based Optical Modulator

All‐fiber actively Q‐switched Er3+/Yb3+ co‐doped ring laser

Applications of In–Fiber Acousto–Optic Devices

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All‐fiber actively Q‐switched Er³⁺/Yb³⁺ co‐doped ring laser