Add to ORKGA novel coupled-cavity Ti:sapphire oscillator architecture featuring a volume Bragg grating as a feedback element is presented. The oscillator provides continuous wave lasing within a spectral linewidth as narrow as 5 pm. The output can be wavelength-tuned over an ultrabroad spectral range of 130 nm, extending from 714 to 842 nm. This unique combination of narrow spectral linewidth and wide tuning range makes the laser suitable for applications such as sensing and Raman and absorption spectroscopy. The laser also displays ideal TEM00 mode operation throughout its tuning range with output powers beyond 300 mW. Detailed studies of the cw lasing dynamics across the wide tuning range are described. The general architecture of this design can be...
Pulses as short as 5 fs, with spectra extending from 600 to 1200 nm, have been generated directly wi...
We report the CW performance of two broadly tuneable, optically pumped VECSEL gain structures operat...
204 nm are produced by a Ti:sapphire (Ti:S) oscilla-tor cavi seeded N by the The osc the Ti:S mode o...
A novel coupled-cavity Ti:sapphire oscillator architecture featuring a volume Bragg grating as a fee...
A novel coupled-cavity Ti:sapphire oscillator architecture featuring a volume Bragg grating as a fee...
A widely tunable, narrow band Ti:Sapphire oscillator is reported. Tunability and spectral narrowing ...
We report a design of a tunable Ti:sapphire laser capable of operating in the range between 700 and ...
Spectral narrowing of Ti:Sapphire down to two longitudinal modes has been achieved in the 3W pump po...
Spectral narrowing of Ti:Sapphire down to two longitudinal modes has been achieved in the 3W pump po...
Design, theoretical modeling, and experimental characterization of a widely tunable Ti:Sapphire lase...
We report a diode-pumped ultrafast Ti:sapphire laser tunable over a 50 nm range. Sub-100 fs pulses a...
Abstract: We demonstrate a technique for laser tuning based on a volume Bragg grating. A peak power ...
Ti:Sapphire is one of the most preferred gain media for tunable solid-state lasers in the near infra...
Design criteria and experimental investigations of different Ti:Sapphire lasers pumped with 0.65, 1....
A continuously tunable titanium:sapphire (Ti:Sa) laser self-seeded by an extended grating cavity was...
Pulses as short as 5 fs, with spectra extending from 600 to 1200 nm, have been generated directly wi...
We report the CW performance of two broadly tuneable, optically pumped VECSEL gain structures operat...
204 nm are produced by a Ti:sapphire (Ti:S) oscilla-tor cavi seeded N by the The osc the Ti:S mode o...
A novel coupled-cavity Ti:sapphire oscillator architecture featuring a volume Bragg grating as a fee...
A novel coupled-cavity Ti:sapphire oscillator architecture featuring a volume Bragg grating as a fee...
A widely tunable, narrow band Ti:Sapphire oscillator is reported. Tunability and spectral narrowing ...
We report a design of a tunable Ti:sapphire laser capable of operating in the range between 700 and ...
Spectral narrowing of Ti:Sapphire down to two longitudinal modes has been achieved in the 3W pump po...
Spectral narrowing of Ti:Sapphire down to two longitudinal modes has been achieved in the 3W pump po...
Design, theoretical modeling, and experimental characterization of a widely tunable Ti:Sapphire lase...
We report a diode-pumped ultrafast Ti:sapphire laser tunable over a 50 nm range. Sub-100 fs pulses a...
Abstract: We demonstrate a technique for laser tuning based on a volume Bragg grating. A peak power ...
Ti:Sapphire is one of the most preferred gain media for tunable solid-state lasers in the near infra...
Design criteria and experimental investigations of different Ti:Sapphire lasers pumped with 0.65, 1....
A continuously tunable titanium:sapphire (Ti:Sa) laser self-seeded by an extended grating cavity was...
Pulses as short as 5 fs, with spectra extending from 600 to 1200 nm, have been generated directly wi...
We report the CW performance of two broadly tuneable, optically pumped VECSEL gain structures operat...
204 nm are produced by a Ti:sapphire (Ti:S) oscilla-tor cavi seeded N by the The osc the Ti:S mode o...