10.6084/m9.figshare.1012374.v1 Ph V Demekhin Ph V Demekhin L S Cederbaum L S Cederbaum The CO<sup>+</sup>(<em>A</em> <sup>2</sup>Π) RA electron spectrum of core-excited CO* molecules IOP Publishing 2013 pi dices carrier frequency laser co ra resonance pulse 4 fs duration molecule Atomic Physics Molecular Physics 2013-08-13 00:00:00 Figure https://iop.figshare.com/articles/figure/_The_CO_sup_sup_em_A_em_sup_2_sup_RA_electron_spectrum_of_core_excited_CO_molecules/1012374 <p><strong>Figure 6.</strong> The CO<sup>+</sup>(<em>A</em> <sup>2</sup>Π) RA electron spectrum of core-excited CO* molecules. The calculations are performed within the <em>DICES</em> model (i.e. including rotations) for a Gaussian-shaped pulse of 4 fs duration, carrier frequency of 534.2 eV (i.e. the excitation of the O(1s<sup>−1</sup>π*, <em>v<sub>r</sub></em> = 5) resonance) and peak intensity of 5 <b>×</b> 10<sup>16</sup> W cm<sup>−2</sup>. The results of different approximations discussed in the text are shown. These include the contribution of only the resonant channel (<em>Resonant</em>), of only the direct ionization channel (<em>Direct</em>) and of both the direct and resonant channels and the interference between them (<em>Interference</em>), as well as the contributions of all mechanisms including the direct PI of the resonance (<em>Total</em>).</p> <p><strong>Abstract</strong></p> <p>The dynamics of the resonant Auger (RA) decay of the core-excited CO*(1s<sup>−1</sup>π*) molecule in intense x-ray laser pulses is studied theoretically. The present approach includes the impact of the analogue of conical intersections of the complex potential energy surfaces of the ground and 'dressed' resonant states induced by intense x-ray pulses. It also takes into account the decay of the resonance and the direct photoionization of the ground state, both populating the same final ionic states coherently, as well as the direct photoionization of the resonance state itself. The individual impacts of these physical processes on the total ion yield, the CO<sup>+</sup>(<em>A</em> <sup>2</sup>Π) electron spectrum and the ro-vibrational distributions of the neutral molecules remaining in the ground electronic state after the laser pulse has expired are analysed and compared to those reported previously for the C*O resonance. It is also demonstrated that the RA effect of molecules by strong laser pulses of resonant carrier frequency is an efficient process to produce <em>two-site double-core-hole–one-particle</em> states of CO*.</p>