Title :
Dual Semiconductor Laser System With Rapid Time-Delay for Ultrafast Measurements
Author :
Quast, Holger ; Meuer, Christian ; Reimann, Olaf ; Huhse, Dieter ; Bimberg, Dieter
Author_Institution :
Inst. fur Festkorperphys., Technische Univ. Berlin
Abstract :
We present a dual semiconductor laser system at 1.55 mum with femtosecond pulse widths and very low timing jitter for rapid pump-probe measurements. Synchronizing the two lasers to the same low-noise radio frequency-oscillator allows the use of an electrical phase shifter for the relative time delay between the lasers. This leads to a large scanning window that nearly matches the pulse period of 2.5 ns, as well as achieving a discrete time step of below 100 fs. The timing jitter of the complete dual laser system including all electronics is only 540 fs across the whole time delay. The nonlinear pulse compression using especially designed comb-like dispersion profiled fiber leads to autocorrelation widths of 310 fs. The system performance, i.e., the high time resolution is demonstrated by optical cross correlation of the pump and probe pulse, showing a very low full-width at half maximum of 1.3 ps
Keywords :
delays; high-speed optical techniques; measurement by laser beam; optical correlation; optical fibre dispersion; optical pulse compression; semiconductor lasers; synchronisation; timing jitter; 1.55 mum; 2.5 ns; 540 fs; autocorrelation; comb-like fiber; dispersion profiled fiber; dual laser system; dual semiconductor laser system; electrical phase shifter; femtosecond pulsewidths; laser synchronization; low-noise oscillator; nonlinear pulse compression; optical cross correlation; radiofrequency oscillator; rapid pump-probe measurements; rapid time-delay; scanning window; time resolution; timing jitter; ultrafast measurements; Delay effects; Optical pulse compression; Optical pulses; Pulse measurements; Pump lasers; Semiconductor lasers; Space vector pulse width modulation; Timing jitter; Ultrafast electronics; Ultrafast optics; Electrooptic sampling; lasers; optical fiber devices; optical pulse compression; ultrafast optics;
Journal_Title :
Photonics Technology Letters, IEEE
DOI :
10.1109/LPT.2006.885221
