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W2016937443 abstract "The organic compounds HCN and C2H2, present in protoplanetary discs, may react to form precursor molecules of the nucleobases, such as the pyrimidine molecule, C4H4N2. Depending on the temperature in a given region of the disc, molecules are in the gas phase or condensed on to grain surfaces. The action of X-ray photons and MeV protons, emitted by the young central star, may lead to several physical and chemical processes in such pre-stellar environments. In this work we have experimentally investigated the ionization, dissociation and desorption processes of pyrimidine in the condensed and the gas phase stimulated by soft X-rays and protons, respectively. Pyrimidine was frozen at temperatures below 130 K and irradiated with X-rays at energies from 394 to 427 eV. In the gas phase experiment, a pyrimidine effusive jet at room temperature was bombarded with protons of 2.5 MeV. In both experiments, the time-of-flight mass-spectrometry technique was employed. Partial photodesorption ion yields as a function of the X-ray photon energy for ions such as C3H2+, HC3NH+ and C4H+ were determined. The experimental results were applied to conditions of the protoplanetary disc of TW Hydra star. Assuming three density profiles of molecular hydrogen, 1 × 106, 1 × 107 and 1 × 108 cm−3, we determined HC3NH+ ion-production rates of the order of 10−31 up to 10−8 ions cm−3 s−1. Integrating over 1 × 106 yr, HC3NH+ column density values, ranging from 3.47 × 109 to 1.29 × 1013 cm−2, were obtained as a function of the distance from central star. The optical depth is the main variable that affects ions production. In addition, computational simulations were used to determine the kinetic energies of ions desorbed from pyrimidine ice distributed between ∼7 and 15 eV." @default.
W2016937443 created "2016-06-24" @default.
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W2016937443 date "2013-06-29" @default.
W2016937443 modified "2023-09-24" @default.
W2016937443 title "X-ray photodesorption and proton destruction in protoplanetary discs: pyrimidine" @default.
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W2016937443 doi "https://doi.org/10.1093/mnras/stt994" @default.
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