We experimentally study the generation and amplification of stable picosecond-short optical pulses by a master oscillator power-amplifier configuration consisting of a monolithic quantum-dot-based gain-guided tapered laser and amplifier emitting at 1.26 μm without pulse compression, external cavity, gain-or Q-switched operation. We report a peak power of 42 W and a figure-of-merit for second-order nonlinear imaging of 38.5 W2 at a repetition rate of 16 GHz and an associated pulse width of 1.37 ps.
Picosecond pulse amplification up to a peak power of 42 W by a quantum-dot tapered optical amplifier and a mode-locked laser emitting at 126 µm / Christoph, Weber; Lukas, Drzewietzki; Rossetti, Mattia; Xu, Tianhong; Bardella, Paolo; Hercules, Simos; Charis, Mesaritakis; Mike, Ruiz; Igor, Krestnikov; Daniil, Livshits; Michel, Krakowski; Dimitris, Syvridis; Montrosset, Ivo; Edik U., Rafailov; Wolfgang, Elsäßer; Stefan, Breuer. - In: OPTICS LETTERS. - ISSN 0146-9592. - STAMPA. - 40:(2015), pp. 395-398. [10.1364/OL.40.000395]
Picosecond pulse amplification up to a peak power of 42 W by a quantum-dot tapered optical amplifier and a mode-locked laser emitting at 126 µm
ROSSETTI, MATTIA;XU, TIANHONG;BARDELLA, PAOLO;MONTROSSET, Ivo;
2015
Abstract
We experimentally study the generation and amplification of stable picosecond-short optical pulses by a master oscillator power-amplifier configuration consisting of a monolithic quantum-dot-based gain-guided tapered laser and amplifier emitting at 1.26 μm without pulse compression, external cavity, gain-or Q-switched operation. We report a peak power of 42 W and a figure-of-merit for second-order nonlinear imaging of 38.5 W2 at a repetition rate of 16 GHz and an associated pulse width of 1.37 ps.File | Dimensione | Formato | |
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https://hdl.handle.net/11583/2605034
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