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Autoionizing Rydberg states

Excited atom production and subsequent photoionization plays an important role in 0+ formation on excitation from the chosen Rydberg state. Autoionization results in a more extensive range of vibrational excitation than previously expected, and this leads also to significant 0+ production. Angular distributions for the four different product angular distributions... [Pg.101]

If we suppose that these Rydberg states have non-negligible lifetimes against autoionization, as could occur via dispersion of the potential energy of the molecule into various vibrational modes, then these states would be very sensitive to electric fields in the measuring apparatus. It is suggested here that this is the reason for the large discrepancies between cross sections measured in the various beam experiments. [Pg.64]

In this paper we examined quantum aspects of special classical configurations of two-electron atoms. In the doubly excited regime, we found quantum states of helium that are localized along ID periodic orbits of the classical system. A comparison of the decay rates of such states obtained in one, two and three dimensional ab initio calculations allows us to conclude that the dimension of the accessible configuration space does matter for the quantitative description of the autoionization process of doubly excited Rydberg states of helium. Whilst ID models can lead to dramatically false predictions for the decay rates, the planar model allows for a quantitatively reliable reproduction of the exact life times. [Pg.145]

This type of energy exchange in an autoionization process may correspond with the behavior of a kicked rotator in classical mechanics, which is known to exhibit chaos. It would be worthwhile to consider an autoionization process of a simple diatomic molecule in its Rydberg states to understand experimentally the essential dynamics of a quantum system, whose classical counterpart exhibits chaos. [Pg.446]

Another interesting example is the chaotic autoionization of molecular Rydberg states caused by the interaction of the electron with the degrees of freedom of the core. We consider the model in which the core consists of a positive Coulomb charge plus a rotating dipole that lies in the same plane of the electron orbit (m = l). The Hamiltonian reads (atomic units)... [Pg.584]

VII. MQDT Calculations of Spectra of Autoionizing Rydberg States... [Pg.667]

VII. MQDT CALCULATIONS OF SPECTRA OF AUTOIONIZING RYDBERG STATES... [Pg.686]

The method used in these calculations is based on the theoretical developments of Sakimoto [42] and is also an extension of our previous work on the Stark spectrum of spin-orbit autoionized Rydberg states of argon [43] and of the vibrationally autoionized states of hydrogen [44, 45], Only the homoge-... [Pg.687]

See other pages where Autoionizing Rydberg states is mentioned: [Pg.171]    [Pg.52]    [Pg.53]    [Pg.54]    [Pg.54]    [Pg.63]    [Pg.163]    [Pg.164]    [Pg.163]    [Pg.223]    [Pg.445]    [Pg.446]    [Pg.446]    [Pg.634]    [Pg.662]    [Pg.663]    [Pg.669]    [Pg.670]    [Pg.681]    [Pg.684]    [Pg.685]    [Pg.689]    [Pg.689]    [Pg.691]    [Pg.693]    [Pg.693]    [Pg.702]    [Pg.58]    [Pg.82]    [Pg.85]    [Pg.85]    [Pg.85]    [Pg.85]    [Pg.99]    [Pg.100]    [Pg.101]    [Pg.7]    [Pg.395]    [Pg.395]   
See also in sourсe #XX -- [ Pg.685 ]



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Autoionization

Autoionization states

Basic notions of autoionizing Rydberg states

Optical spectra of autoionizing Rydberg states

Rydberg

Rydberg autoionization

Rydberg states

Rydbergization

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