The energy distributions of protons emitted from the Coulomb explosion of hydrogen clusters by an intense femtosecond laser have been experimentally obtained. Ten thousand hydrogen clusters were exploded, emitting 8.1 keV protons under laser irradiation of intensity 6ϫ10 16 W/cm 2. The energy distributions are interpreted well by a spherical uniform cluster analytical model. The maximum energy of the emitted protons can be characterized by cluster size and laser intensity. The laser intensity scale for the maximum proton energy, given by a spherical cluster Coulomb-explosion model, is in fairly good agreement with the experimental results obtained at a laser intensity of 10 16-10 17 W/cm 2 and also when extrapolated with the results of threedimensional particle simulations at 10 20-10 21 W/cm 2 .
Fragmentation of hydrated thymine clusters in the gas phase induced by UV laser pulse at 266 nm was studied by means of time-of-flight (TOF) mass spectrometry. Hydrated thymine clusters were produced by supersonic expansion in the gas jet in a high vacuum region. The range of laser intensity for ionisation of the gaseous targets was from 10(6) to 10(9) W cm(-2). In the condition of low laser intensity, the peaks corresponding to hydrated thymine clusters [(C(5)H(6)N(2)O(2))(m)(H(2)O)(n)] and large mass fragments from them were obtained mainly. In the laser intensity region from 10(7) to 10(8) W cm(-2), the fragment ions released from thymine such as HCNH(+), HNCO(+), CH(2)CCHNH(+), CH(3)CCHNH(+), C(3)H(4)O(+), etc. were mainly detected due to C-C and C-N bond breaks in a ring structure of thymine.
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