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Quantum-dot external-cavity passively modelocked laser with high peak power and pulse energy

Quantum-dot external-cavity passively modelocked laser with high peak power and pulse energy

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An InAs quantum-dot external-cavity passively modelocked laser with an operation wavelength of 1.27 µm is demonstrated, based on a two-section quantum-dot superluminescent diode with bending ridge waveguide and a 96% output coupler. Stable modelocking with an average power up to 60 mW was obtained at a repetition frequency of 2.4 GHz. This performance corresponds to a 25 pJ pulse energy obtained directly from the oscillator, which represents a 55-fold increase in pulse energy when compared to the current state-of-the-art for semiconductor lasers. At a repetition frequency of 1.14 GHz, picosecond optical pulses with 1.5 W peak power are also demonstrated, representing the highest peak power achieved from an external-cavity laser at the 1.3 µm waveband, without the use of any pulse compression or optical amplification.

Inspec keywords: III-V semiconductors; superluminescent diodes; waveguide discontinuities; indium compounds; quantum dot lasers; semiconductor quantum dots; laser cavity resonators; ridge waveguides; laser mode locking; optical pulse generation

Other keywords: two-section quantum-dot superluminescent diode; wavelength 1.27 mum; output coupler; quantum-dot external-cavity passively modelocked laser; semiconductor lasers; energy 25 pJ; frequency 1.14 GHz; bending ridge waveguide; picosecond optical pulses; frequency 2.4 GHz

Subjects: Semiconductor lasers; Laser resonators and cavities; Laser resonators and cavities; Laser beam modulation, pulsing and switching; mode locking and tuning; Laser beam modulation, pulsing and switching; mode locking and tuning; Design of specific laser systems; Light emitting diodes; Lasing action in semiconductors

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http://iet.metastore.ingenta.com/content/journals/10.1049/el.2010.2336
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