Femtosecond laser driven precessing magnetic gratings to control and detect magnetization dynamics with combined nanometer and picosecond resolutions.

Tunable, continuous-wave Ti: sapphire channel waveguide lasers written by femtosecond and picosecond laser pulses. C Grivas, C Corbari, G Brambilla, PG 

2017-11-22 0.5 Second [s] = 500000000000 Picosecond [ps] 0.5 Picosecond [ps] = 5.0E-13 Second [s] 1 Second [s] = 1000000000000 Picosecond [ps] 1 Picosecond [ps] = 1.0E-12 Second [s] 2 Second [s] = 2000000000000 Picosecond [ps] 2 Picosecond [ps] = 2.0E-12 Second [s] 3 Second [s] = 3000000000000 Picosecond [ps] 3 Picosecond [ps] = 3.0E-12 Second [s] unitsconverters.com helps in the conversion of different units of measurement like Picosecond to Femtosecond through multiplicative conversion factors. 2017-11-01 We present a single-pass frequency doubler that efficiently converts broadband near-infrared femtosecond pulses into narrow-spectrum visible picosecond pulses. An optimal control technique is introduced for properly designing aperiodically poled nonlinear crystals to generate visible pulses of the desired amplitude, phase profile, and carrier wavelength. 1 Picosecond [ps] = 1000 Femtosecond [fs] Picosecond to Femtosecond: Femtosecond to Picosecond: 1 Picosecond [ps] = 1000000 Attosecond [as] Picosecond to Attosecond: Attosecond to Picosecond: 1 Picosecond [ps] = 0.0001 Shake : Picosecond to Shake: Shake to Picosecond: 1 Picosecond [ps] = 3.9193494456849E-19 Month (synodic) Picosecond to Month (synodic) 2002-08-05 the development of lasers producing picosecond pulses is easier than that for femtosecond lasers. Development of high-repetition-rate femtosecond lasers is being stimulated by a large number of applications in material processing, mainly in micromachining. In this study, we investigate the optimum irradiation conditions for PLLA processing, using an ultrafast laser and finely controlling the pulse duration over the femtosecond‐to‐picosecond range. We report on the morphological characteristics of the craters generated by single‐shot and multiple‐shot laser irradiation under pulse duration control.

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The sub-picosecond dynamics of non-thermalized electrons in gold, excited by femtosecond laser, is studied in this work combining electron Boltzmann transport equation and femtosecond spectroscopy. Femtosecond laser pulses are much harder to measure than picosecond or nanosecond pulses. Nanosecond pulses can be easily measured using a fast photodiode and an oscilloscope. The fast photodetector produces a pulse of current that mimics the optical pulse, and an oscilloscope capable of reproducing the pulse traces it on a screen.

The SESAM device facilitates designing customized TIGER laser systems. Repetition rate, wavelength, and pulse widths from femtoseconds to picoseconds can 

An optimal control technique is introduced for properly designing aperiodically poled nonlinear crystals to generate visible pulses of the desired amplitude, phase profile, and carrier wavelength. 1 Picosecond [ps] = 1000 Femtosecond [fs] Picosecond to Femtosecond: Femtosecond to Picosecond: 1 Picosecond [ps] = 1000000 Attosecond [as] Picosecond to Attosecond: Attosecond to Picosecond: 1 Picosecond [ps] = 0.0001 Shake : Picosecond to Shake: Shake to Picosecond: 1 Picosecond [ps] = 3.9193494456849E-19 Month (synodic) Picosecond to Month (synodic) 2002-08-05 the development of lasers producing picosecond pulses is easier than that for femtosecond lasers.

However, in general, polymers deteriorate rapidly owing to laser‐induced heating effects. In this study, we investigate the optimum irradiation conditions for PLLA processing, using an ultrafast laser and finely controlling the pulse duration over the femtosecond‐to‐picosecond range.

Additionally, the chemical step has to be exposed, despite taking place at such a fast time scale relative to steps associated with ligand binding, protein motions that bring the reactants close together, product Picosecond and femtosecond pulsed lasers are available in infrared up to 10 W at 1.5 μ m, up to 100 W at 1.06 μ m or as a second harmonic source up to 5 W at 0.52 μ m. Femto pulse lasers range from 400 to 600 fs, pico pulse models range from 10 ps to 1 ns.

How to convert second to picosecond.
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Femtosecond laser research led to the development, in 2000, of a  Why are Picosecond Pulsed Lasers Winning vs. Femtosecond Lasers Regarding Advantages to Raman Spectroscopy Applications.

Journal de Physique IV Proceedings, EDP Sciences, 1991, 01 (C7), pp.C7- The aeroPULSE FS series builds on the picosecond platform by harnessing the company’s Optocage technology to provide femtosecond ultrafast-laser output at pulse durations shorter than 500 fs, with high pointing stability and output powers of 20 to 50 W. Green and UV frequency-conversion modules are available for the aeroPULSE platform, with single or multiwavelength options. This page features online conversion from picosecond to femtosecond.
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1997-06-01

The fast photodetector produces a pulse of current that mimics the optical pulse, and an oscilloscope capable of reproducing the pulse traces it on a screen. We demonstrate a novel single shot autocorrelation technique for characterization of ultrashort pulses. Unlike existing single shot autocorrelation techniques, our new technique is capable of characterizing optical pulses over a femtosecond to picosecond pulse-width range.