Add to ORKGA method for producing non-uniformly spaced (chirped) trains of ultrafast pulses is demonstrated, using an acousto-optic programmable dispersive filter (AOPDF). Programmable pulse trains of this type may find applications in quasi-phase matching of high-harmonic generation. © 2009 Optical Society of America
We present a new method to broaden the amplification range in optical parametric amplification towar...
A simple method for the generation of ultrashort pulse train with high-repetition-rate is proposed a...
Chirped pulses generation is evaluated and experimentally demonstrated by means of the processing of...
A method for producing non-uniformly spaced (chirped) trains of ultrafast pulses is demonstrated, us...
A method for generating non-uniformly spaced (chirped) trains of high-energy, high-contrast, femtose...
This thesis describes the use of counterpropagating pulse trains to quasi-phase-match high-harmonic ...
A simple method for generating trains of high-contrast femtosecond pulses is proposed and demonstrat...
We investigate quasi-phase-matching of high harmonic generation over a range of harmonic orders usin...
A simple technique for generating trains of ultrafast pulses is demonstrated in which the linear sep...
Quasi-phase-matched high harmonic generation using trains of up to 8 counter-propagating pulses is e...
We demonstrate synchronized few-cycle 800-nm and 2-µm pulse trains seeded from a single Ti:sapphire ...
We demonstrate synchronized few-cycle 800-nm and 2-μm pulse trains seeded from a single Ti:sapphire ...
We investigate quasi-phase-matching over a range of harmonic orders using trains of up to 8 uniforml...
We numerically design quasi-phase matched crystals with domains of arbitrary sizes for second harmon...
We investigate quasi-phase-matching over a range of harmonic orders using trains of up to 8 uniforml...
We present a new method to broaden the amplification range in optical parametric amplification towar...
A simple method for the generation of ultrashort pulse train with high-repetition-rate is proposed a...
Chirped pulses generation is evaluated and experimentally demonstrated by means of the processing of...
A method for producing non-uniformly spaced (chirped) trains of ultrafast pulses is demonstrated, us...
A method for generating non-uniformly spaced (chirped) trains of high-energy, high-contrast, femtose...
This thesis describes the use of counterpropagating pulse trains to quasi-phase-match high-harmonic ...
A simple method for generating trains of high-contrast femtosecond pulses is proposed and demonstrat...
We investigate quasi-phase-matching of high harmonic generation over a range of harmonic orders usin...
A simple technique for generating trains of ultrafast pulses is demonstrated in which the linear sep...
Quasi-phase-matched high harmonic generation using trains of up to 8 counter-propagating pulses is e...
We demonstrate synchronized few-cycle 800-nm and 2-µm pulse trains seeded from a single Ti:sapphire ...
We demonstrate synchronized few-cycle 800-nm and 2-μm pulse trains seeded from a single Ti:sapphire ...
We investigate quasi-phase-matching over a range of harmonic orders using trains of up to 8 uniforml...
We numerically design quasi-phase matched crystals with domains of arbitrary sizes for second harmon...
We investigate quasi-phase-matching over a range of harmonic orders using trains of up to 8 uniforml...
We present a new method to broaden the amplification range in optical parametric amplification towar...
A simple method for the generation of ultrashort pulse train with high-repetition-rate is proposed a...
Chirped pulses generation is evaluated and experimentally demonstrated by means of the processing of...