- 标题
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990 nm High-power High-beam-quality DFB Laser With Narrow Linewidth Controlled By Gain-coupled Effect
摘要: High-power single-longitudinal-mode regrowth-free gain-coupled distributed feedback laser diode based on ridge waveguide with periodic current injection is achieved at 990 nm. Our device is fabricated only by standard i-line lithography with micron-scale precision, obtains an excellent performance at high injection current. A continuous-wave power of over 0.681 W is achieved at 3 A. The maximum continuous-wave power at single-longitudinal-mode operation is up to 0.303 W at 1.4 A. Narrow linewidth emission has been reached with a 3 dB spectrum width less than 1.41 pm. The high side mode suppression ratio is over 35 dB. The lateral far field divergence angle is only 15.05 °, the beam quality factor M 2 is 1.245, achieving a laterally near-diffraction-limit emission. It is more beneficial for single mode fiber coupling as pumping sources and other applications which require high beam quality at high power with easy fabrication technique.
关键词: narrow linewidth,Single-longitudinal mode,Gain-coupled DFB,Semiconductor lasers
更新于2025-11-28 14:24:03
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Narrow linewidth DBR laser based on high order Bragg grating defined by i-line lithography
摘要: In order to obtain narrow linewidth semiconductor laser around 1564 nm, we design a distributed Bragg reflector (DBR) laser with high-order Bragg gratings (HOBGs) using butterfly encapsulation. The DBR laser is fabricated only by i-line lithography technology with grating period of 4.84 μm, groove width of 1.5 μm and grating length of 72 μm on a strip width of 4 μm. The 1mm-long devices achieved an output power of 9.9 mW and a side mode suppression ratio (SMSR) more than 30 dB without facet coating at an injection current of 80 mA. The lasers showed ultra-narrow Lorentz linewidth of 70 KHz. This paper provides a simple method for large-scale production of narrow linewidth semiconductor lasers.
关键词: narrow linewidth spectrum,Semiconductor laser,high-order grating,distributed Bragg reflector laser
更新于2025-11-28 14:23:57
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Narrow no-gain competition linewidth dual-wavelength laser at 912?nm and 1064 nm
摘要: A narrow linewidth, no-gain competition, 912 nm quasi-three level and 1064 nm four-level dual-wavelength laser is presented for the first time. This system consists of an intra-cavity pumped Nd:YVO4 laser emitting at 1064 nm, using a 912 nm Nd:GdVO4 laser. A Fabry-Perot etalon is used to compress the linewidth located at the common parts of the 912 nm and 1064 nm laser resonators. When the etalon, with an angle of refraction of 15°, was introduced into the cavity, the narrow linewidth dual-wavelength laser was obtained. The corresponding minimum linewidths were 0.284 nm and 0.627 nm.
关键词: intra-cavity pumped,dual-wavelength,narrow linewidth
更新于2025-11-28 14:23:57
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Recent progress on narrow-linewidth crystalline bulk Raman lasers
摘要: Narrow-linewidth, solid-state Raman lasers are of signi?cant importance for numerous applications. In last decade, variety of methods have been utilized to suppress the spectral linewidth of Raman laser output. In this review we summarize the recent works of narrow-linewidth and/or single-frequency solid-state Raman lasers. The mechanisms and results are addressed while the positive and negative aspects of each technique are also discussed to give the readers a reference to choose a proper narrow-linewidth method for certain applications.
关键词: F-P etalon,Injection seeding,Narrow-linewidth laser,Single-frequency laser,Raman laser,Spatial hole burning
更新于2025-09-23 15:21:01
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High-peak-power and narrow-linewidth Q-switched Ho:YAG laser in-band pumped at 1931 nm
摘要: We describe a high-peak-power, narrow-linewidth Q-switched Ho:YAG laser at 2097 nm wing-pumped by a high power and high brightness Tm:fiber source at 1931.5 nm. The laser was wavelength locked and spectrum narrowed utilizing a volume Bragg grating as the input coupler, resulting a linewidth (FWHM) of less than 0.1 nm. At 22.7 W of incident pump power, stable pulses of 5.5 mJ pulse energy and 17.5 ns of pulse duration have been generated at repetition frequency of 1 kHz, corresponding to peak power of 314.3 kW.
关键词: narrow-linewidth,Q-switched Ho:YAG laser,volume Bragg grating,1931.5 nm,high-peak-power
更新于2025-09-23 15:21:01
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Widely tunable ytterbium-doped single-frequency all-fiber laser
摘要: We demonstrate a widely tunable ytterbium-doped single frequency all-fiber laser with a computer-controlled tunable filter and a home-made comb spectrum filter. The comb filter is realized by fusing a single strand of polarization maintaining optical fiber into a double-circulator interferometer. The spectral performance of the comb filter is verified by theoretical and experimental studies. Wavelength-tunable single frequency operation in about 55 nm (1030–1085 nm) range can be achieved through the combined effect of these two filters. The experimental outcomes exhibit that an ultra-narrow linewidth of 435 Hz with high optical signal to noise ratio greater than 50 dB and high stability of operation wavelength and output power (0.016 nm and 0.38 dB, respectively) at room temperature. Our studies provide a new way to obtain the wide-range tunable single frequency fiber laser.
关键词: Wavelength-tunable,Fiber laser,Ultra-narrow linewidth,Single frequency,Comb spectrum filter
更新于2025-09-23 15:21:01
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Red, Green, and Blue Microcavity Quantum Dot Light-Emitting Devices with Narrow Line Widths
摘要: Colloidal quantum dots (QDs) are tiny particles produced chemically from semiconductor materials with sizes below 100 nm. Because of the quantum size effect, QDs have very unique luminescent properties. Based on these light emitters, quantum dot light-emitting diodes (QLEDs) exhibit outstanding electroluminescence (EL) performances and they are promising for application in displays, light sources and quantum-optoelectronic technologies. One of the greatest challenges in QLEDs is their low light outcoupling efficiency due to their planar structure, which limits the external quantum ef?ciency (EQE) of QLEDs for commercial applications. Here, we report the development of a set of red, green, and blue QLEDs with high EQE by incorporating microcavity structure in the devices. These microcavity devices exhibit modified EL spectra with full width at half maximum of 12-14 nm. Red, green, and blue microcavity QLEDs show maximum current efficiency and maximum EQE of 96.5 cd·A-1 and 33.1%, 102 cd·A-1 and 24.7%, and 2.91 cd·A-1 and 11.2%, respectively. We anticipate that a suitable design of a microcavity combining superior QDs will lead to excellent EL performance of QLEDs for displays, ideal QLED-based single-photon sources for quantum information technology, and electrically pumped QD lasers.
关键词: EQE,narrow linewidth,QLED,quantum dot,microcavity,electroluminescence
更新于2025-09-23 15:19:57
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Diamond Brillouin laser in the visible
摘要: Brillouin lasers providing extremely narrow-linewidth are emerging as a powerful tool for microwave photonics, coherent communications, quantum processors, and spectroscopy. So far, laser performance and applications have been investigated for a handful of select materials and using guided-wave structures such as micro-resonators, optical fibers, and chip-based waveguides. Here, we report a Brillouin laser based on free-space laser action in an extreme optical material. Continuous-wave lasing 167 GHz from a 532 nm pump is demonstrated in diamond using a doubly resonant ring cavity, generating a pump-limited output power of 11 W. The Brillouin gain coefficient is measured to be 79 cm GW?1 with a linewidth of 12 MHz. These properties, along with an exceptionally high Brillouin frequency and wide transmission range, make diamond Brillouin lasers a promising high-power source of narrow-linewidth output and mm-wave beat notes.
关键词: narrow-linewidth,quantum processors,microwave photonics,diamond,Brillouin lasers,spectroscopy,coherent communications
更新于2025-09-19 17:13:59
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[IEEE 2019 18th International Conference on Optical Communications and Networks (ICOCN) - Huangshan, China (2019.8.5-2019.8.8)] 2019 18th International Conference on Optical Communications and Networks (ICOCN) - Monolithic Linearly Polarized Nanosecond Fiber Laser with Record Peak Power and Near-Transform-Limited Linewidth
摘要: An all-fiberized linearly polarized nanosecond fiber laser with high peak power and near-transfrom-limited linewidth is demonstrated based on master oscillator power amplifier structure. Employing the polarization-maintaining fiber with large-mode-area Yb-doped tapered longitudinal geometry, short length and high concentration, the main amplifier possesses excellent performance for nonlinear effect suppression, including stimulated Brillouin scattering effect and self-phase modulation effect. As a result, an average output power of 8.8 W with the pulse duration of 3.8 ns is obtained at the repetition frequency of 80 kHz after the amplification, corresponding to the peak power of ~30 kW and the pulse energy of 110 uJ. The near- transform-limited linewidth is maintained, accompanying high polarization extinction ratio of more than 16 dB and near-diffraction-limited beam quality with M2 factor of 1.2. It is known to be the record output power of all-fiber linearly polarized ns fiber laser with transform-limited linewidth, to the best of our knowledge.
关键词: narrow linewidth,nanosecond fiber laser,tapered fiber,linear polarization
更新于2025-09-16 10:30:52
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[IEEE 2019 SBFoton International Optics and Photonics Conference (SBFoton IOPC) - Sao Paulo, Brazil (2019.10.7-2019.10.9)] 2019 SBFoton International Optics and Photonics Conference (SBFoton IOPC) - High-Performance and Small Form-Factor Tunable Lasers for High-Capacity Telecom Systems
摘要: In this work, an overview of requirements for compact optical modules and devices is presented, focusing on optical laser sources. Regarding coherent applications, the laser must have narrow linewidth, while, at the same time, be compact and present low power consumption, targeting C-form factor pluggable (CFP) modules. Latest results obtained by our group on laser development are presented, showing that the External-Cavity Laser (ECL) can fulfill the requirements for this application.
关键词: C-form factor modules,coherent optical communication,external cavity laser,micro-ITLA,narrow-linewidth laser
更新于2025-09-16 10:30:52