An optical parametric generator and amplifier producing 15 ps pulses at wavelengths tunable around 2 $\mu$m, with energies up to 15 mJ/pulse, has been realized and characterized. The output wavelength is chosen to match a vibrational combination band of water. By measuring the induced birefringence changes we prove that a single pulse is able to completely melt samples of ice in the 10{\textminus}6 cm3 volume range, both at room pressure (263 K) and at high pressure (298 K, 1 GPa) in a sapphire anvil cell. This source opens the possibility of studying melting and freezing processes by spectroscopic probes in water or water solutions in a wide range of conditions as found in natural environments.
Picosecond optical parametric generator and amplifier for large temperature-jump / M. Citroni;S. Fanetti;B. Guigue;P. Bartolini;A. Taschin;A. Lapini;P. Foggi;R. Bini. - In: OPTICS EXPRESS. - ISSN 1094-4087. - ELETTRONICO. - 22:(2014), pp. 30047-30052. [10.1364/OE.22.030047]
Picosecond optical parametric generator and amplifier for large temperature-jump
CITRONI, MARGHERITA;TASCHIN, ANDREA;LAPINI, ANDREA;BINI, ROBERTO
2014
Abstract
An optical parametric generator and amplifier producing 15 ps pulses at wavelengths tunable around 2 $\mu$m, with energies up to 15 mJ/pulse, has been realized and characterized. The output wavelength is chosen to match a vibrational combination band of water. By measuring the induced birefringence changes we prove that a single pulse is able to completely melt samples of ice in the 10{\textminus}6 cm3 volume range, both at room pressure (263 K) and at high pressure (298 K, 1 GPa) in a sapphire anvil cell. This source opens the possibility of studying melting and freezing processes by spectroscopic probes in water or water solutions in a wide range of conditions as found in natural environments.
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