Starting from a 100-nJ gain-switched microchip single-frequency laser, pulses up to 3.2 mJ at 100 Hz and 13 ns are achieved with hybrid cw/quasi-cw solid state amplifiers. This system has been designed for high-resolution Doppler lidar applications
OPCPA laser systems require a high-quality, high-energy picosecond pump. The challenges of energy sc...
A compact and highly efficient 670.8-nm semi-conductor master oscillator power amplifier (MOPA) syst...
High average power laser sources operating in the picosecond (ps) regime are useful for a wide range...
High power multiwatt amplification with high-gain compact amplifier modules is presented. Sub-ns pul...
We obtained 375-µJ, 600-ps long pulses from a Nd:YAG/Cr4+:YAG passively Q-switched master oscillator...
An Nd:YAG-MOPA system consisting of a stable oscillator and two subsequent Innoslab-based amplifier ...
We present a MOPA laser system able to provide 250 mJ at 1064 nm in a well shaped rectangular envelo...
High repetition rate high power picosecond laser is an urgent demand for the micro machining of tran...
Compact, high average output power with picosecond pulses laser was achieved through a carbon nanotu...
Abstract: The design of a diode pumped, injection seeded MOPA with a transform limited line width an...
High-speed precision machining techniques (e.g. percussion drilling or surface structuring) require ...
An arbitrary pulse shape by compensating gain saturation in a solid-state Master oscillator power am...
A two-dimensional linear array fiber amplifier based on the master oscillator power amplifier (MOPA)...
For the CO2 and CH4 IPDA lidar CHARM-F two single frequency Nd:YAG based MOPA systems were developed...
A Nd:YAG laser system which the size was about 4 m×0.8 m was developed by master oscillator power am...
OPCPA laser systems require a high-quality, high-energy picosecond pump. The challenges of energy sc...
A compact and highly efficient 670.8-nm semi-conductor master oscillator power amplifier (MOPA) syst...
High average power laser sources operating in the picosecond (ps) regime are useful for a wide range...
High power multiwatt amplification with high-gain compact amplifier modules is presented. Sub-ns pul...
We obtained 375-µJ, 600-ps long pulses from a Nd:YAG/Cr4+:YAG passively Q-switched master oscillator...
An Nd:YAG-MOPA system consisting of a stable oscillator and two subsequent Innoslab-based amplifier ...
We present a MOPA laser system able to provide 250 mJ at 1064 nm in a well shaped rectangular envelo...
High repetition rate high power picosecond laser is an urgent demand for the micro machining of tran...
Compact, high average output power with picosecond pulses laser was achieved through a carbon nanotu...
Abstract: The design of a diode pumped, injection seeded MOPA with a transform limited line width an...
High-speed precision machining techniques (e.g. percussion drilling or surface structuring) require ...
An arbitrary pulse shape by compensating gain saturation in a solid-state Master oscillator power am...
A two-dimensional linear array fiber amplifier based on the master oscillator power amplifier (MOPA)...
For the CO2 and CH4 IPDA lidar CHARM-F two single frequency Nd:YAG based MOPA systems were developed...
A Nd:YAG laser system which the size was about 4 m×0.8 m was developed by master oscillator power am...
OPCPA laser systems require a high-quality, high-energy picosecond pump. The challenges of energy sc...
A compact and highly efficient 670.8-nm semi-conductor master oscillator power amplifier (MOPA) syst...
High average power laser sources operating in the picosecond (ps) regime are useful for a wide range...
