Add to ORKGNonlinear pulse compression mediated by three-wave mixing is demonstrated for ultrashort Ti:sapphire pulses in a type II phase-matched �β-barium borate (BBO) crystal using noncollinear geometry. 170 μJ pulses at 800 nm with a pulse duration of 74 fs are compressed at their sum frequency to 32 fs with 55 μJ of pulse energy. Experiments and computer simulations demonstrate the potential of sum-frequency pulse compression to match the group velocities of the interacting waves to crystals that were initially not considered in the context of nonlinear pulse compression.Peer ReviewedPostprint (author's final draft
We present simulations for a design of a high-energy single-stage mid-IR difference frequency genera...
We demonstrate nonlinear pulse compression based on recently introduced highly coherent broadband su...
We present a carrier–envelope phase (CEP) stabilized sub-two-cycle 5.2 fs pulse source based on soli...
Nonlinear pulse compression mediated by three-wave mixing is demonstrated for ultrashort Ti:sapphire...
A number of manners to obtain first-order achromatic phase matching of both type I and type II are p...
Peak and average power scalability is the key feature of advancing femtosecond laser technology. Tod...
Abstract. : We demonstrate a novel scalable and engineerable approach for the frequency-doubling of ...
In this thesis I investigate two methods for generating ultrashort laser pulses in spectral regions ...
We introduce a simple approach for the efficient generation of tunable narrow-bandwidth picosecond p...
In a χ(2) material such as BBO, third order nonlinear effects can occur efficiently via a cascaded n...
We numerically design quasi-phase matched crystals with domains of arbitrary sizes for second harmon...
The physics of strong-field applications requires driver laser pulses that are both energetic and ex...
We study cascaded quadratic soliton compressors and address the physical mechanisms that limit the ...
Compression of 42 fs, 0.29 mJ pulses from a Ti:Sapphire amplifier down to 8 fs (approximately 3 opti...
The possibility of soliton self-compression of ultrashort laser pulses down to the few-cycle regime ...
We present simulations for a design of a high-energy single-stage mid-IR difference frequency genera...
We demonstrate nonlinear pulse compression based on recently introduced highly coherent broadband su...
We present a carrier–envelope phase (CEP) stabilized sub-two-cycle 5.2 fs pulse source based on soli...
Nonlinear pulse compression mediated by three-wave mixing is demonstrated for ultrashort Ti:sapphire...
A number of manners to obtain first-order achromatic phase matching of both type I and type II are p...
Peak and average power scalability is the key feature of advancing femtosecond laser technology. Tod...
Abstract. : We demonstrate a novel scalable and engineerable approach for the frequency-doubling of ...
In this thesis I investigate two methods for generating ultrashort laser pulses in spectral regions ...
We introduce a simple approach for the efficient generation of tunable narrow-bandwidth picosecond p...
In a χ(2) material such as BBO, third order nonlinear effects can occur efficiently via a cascaded n...
We numerically design quasi-phase matched crystals with domains of arbitrary sizes for second harmon...
The physics of strong-field applications requires driver laser pulses that are both energetic and ex...
We study cascaded quadratic soliton compressors and address the physical mechanisms that limit the ...
Compression of 42 fs, 0.29 mJ pulses from a Ti:Sapphire amplifier down to 8 fs (approximately 3 opti...
The possibility of soliton self-compression of ultrashort laser pulses down to the few-cycle regime ...
We present simulations for a design of a high-energy single-stage mid-IR difference frequency genera...
We demonstrate nonlinear pulse compression based on recently introduced highly coherent broadband su...
We present a carrier–envelope phase (CEP) stabilized sub-two-cycle 5.2 fs pulse source based on soli...