Add to ORKGWe demonstrate the excitation of solitons in a parametric amplifier with enhanced signal content through the use of a chirped-period quasi-phase-matching grating. This technique affords a low soliton threshold at the input end of a parametric amplifier, and the subsequent transformation to a desired soliton that exists at nonzero wave-vector mismatch through the use of a linearly chirped quasi-phase-matching grating. This approach has an advantage over direct excitation of solitons at nonzero wave-vector mismatch in uniform nonlinear materials and holds potential for improving the efficiency and mode quality of high-gain parametric amplifiers.Peer Reviewe
The advantage for quadratic soliton generation of engineering the quasi-phase-matching period near t...
Chirped quasi-phasematching (QPM) optical devices offer the potential for ultrawide bandwidths, high...
Simultaneous generation of the 2nd and 3rd harmonic, excited by linearly frequency- chirped fundamen...
We demonstrate the excitation of solitons in a parametric amplifier with enhanced signal content thr...
We demonstrate the excitation of solitons in a parametric amplifier with enhanced signal content thr...
We show that the pump–to–signal power conversion efficiency of parametric chirped-pulse amplifiers m...
We show that the pump–to–signal power conversion efficiency of parametric chirped-pulse amplifiers m...
We show that the pump–to–signal power conversion efficiency of parametric chirped-pulse amplifiers m...
We report on a scheme which might make it practically possible to engineer the effective competing n...
We report on a scheme which might make it practically possible to engineer the effective competing n...
Analytical soliton solutions of parametric amplification with arbitrary phase and amplitude modulati...
We develop an effective numerical algorithm to design engineered quasi-phase-matching gratings in no...
We develop an effective numerical algorithm to design engineered quasi-phase-matching gratings in no...
The advantage for quadratic soliton generation of engineering the quasi-phase-matching period near t...
We develop a rapid and efficient numeric technique for the design of arbitrary quasi-phase matched l...
The advantage for quadratic soliton generation of engineering the quasi-phase-matching period near t...
Chirped quasi-phasematching (QPM) optical devices offer the potential for ultrawide bandwidths, high...
Simultaneous generation of the 2nd and 3rd harmonic, excited by linearly frequency- chirped fundamen...
We demonstrate the excitation of solitons in a parametric amplifier with enhanced signal content thr...
We demonstrate the excitation of solitons in a parametric amplifier with enhanced signal content thr...
We show that the pump–to–signal power conversion efficiency of parametric chirped-pulse amplifiers m...
We show that the pump–to–signal power conversion efficiency of parametric chirped-pulse amplifiers m...
We show that the pump–to–signal power conversion efficiency of parametric chirped-pulse amplifiers m...
We report on a scheme which might make it practically possible to engineer the effective competing n...
We report on a scheme which might make it practically possible to engineer the effective competing n...
Analytical soliton solutions of parametric amplification with arbitrary phase and amplitude modulati...
We develop an effective numerical algorithm to design engineered quasi-phase-matching gratings in no...
We develop an effective numerical algorithm to design engineered quasi-phase-matching gratings in no...
The advantage for quadratic soliton generation of engineering the quasi-phase-matching period near t...
We develop a rapid and efficient numeric technique for the design of arbitrary quasi-phase matched l...
The advantage for quadratic soliton generation of engineering the quasi-phase-matching period near t...
Chirped quasi-phasematching (QPM) optical devices offer the potential for ultrawide bandwidths, high...
Simultaneous generation of the 2nd and 3rd harmonic, excited by linearly frequency- chirped fundamen...