Nonlocal electron kinetics and densities of excited atoms inSandPstriations

AbstractWhether it be physical, biological or social processes, complex systems exhibit dynamics that are exceedingly difficult to understand or predict from underlying principles. Here we report a striking correspondence between the excitation dynamics of a laser driven gas of Rydberg atoms and the spreading of diseases, which in turn opens up a controllable platform for studying non-equilibrium dynamics on complex networks. The competition between facilitated excitation and spontaneous decay results in sub-exponential growth of the excitation number, which is empirically observed in real epidemics. Based on this we develop a quantitative microscopic susceptible-infected-susceptible model which links the growth and final excitation density to the dynamics of an emergent heterogeneous network and rare active region effects associated to an extended Griffiths phase. This provides physical insights into the nature of non-equilibrium criticality in driven many-body systems and the mechanisms leading to non-universal power-laws in the dynamics of complex systems.

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Semiclassical calculations of the quadruple excited four-electron systems

Serbian Astronomical Journal ◽

10.2298/saj0775033s ◽

2007 ◽

pp. 33-44

Author(s):

N. Simonovic ◽

M. Predojevic ◽

V. Pankovic ◽

P. Grujic

Keyword(s):

Energy Levels ◽

Point Of View ◽

Interstellar Space ◽

Vibrational Modes ◽

Electron Systems ◽

Atomic Systems ◽

Excited Atoms ◽

Relative Contribution ◽

Quantum Numbers ◽

Semiclassical States

Highly excited atoms acquire very large dimensions and can be present only in a very rarified gas medium, such as the interstellar space. Multiply excited beryllium-like systems, when excited to large principal quantum numbers, have a radius of r ? 10 ?. We examine the semiclassical spectrum of quadruple highly excited four-electron atomic systems for the plane model of equivalent electrons. The energy of the system consists of rotational and vibrational modes within the almost circular orbit approximation, as used in a previous calculation for the triply excited three-electron systems. Here we present numerical results for the beryllium atom. The lifetimes of the semiclassical states are estimated via the corresponding Lyapunov exponents. The vibrational modes relative contribution to the energy levels rises with the degree of the Coulombic excitation. The relevance of the results is discussed both from the observational and heuristic point of view.

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Absorption Spectra of Excited Atoms and Excited Ions produced by Isothermal Flash Photolysis of Metal Carbonyls in the Gas Phase

Nature ◽

10.1038/210730a0 ◽

1966 ◽

Vol 210 (5037) ◽

pp. 730-730 ◽

Cited By ~ 15

Author(s):

A. B. CALLEAR ◽

R. J. OLDMAN

Keyword(s):

Gas Phase ◽

Absorption Spectra ◽

Flash Photolysis ◽

Metal Carbonyls ◽

Excited Atoms

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The kinetic theory of hot reactions. Reactions of ions and excited species

Australian Journal of Chemistry ◽

10.1071/ch9760681 ◽

1976 ◽

Vol 29 (3) ◽

pp. 681

Author(s):

FCR Cattell

Keyword(s):

Kinetic Theory ◽

High Energy ◽

Excited Atoms ◽

Halogen Atoms ◽

Excited Species ◽

Sufficient Proof

Removal of a product in a manner which conforms to the Estrup-Wolfgang kinetic theory is not sufficient proof that kinetic excitation alone is involved. There may therefore be a need to reappraise some high-energy reactions of heavy halogen atoms where reactions of charged and excited atoms are likely to interfere.

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