TITLE

Avoided crossings, scars, and transition to chaos

AUTHOR(S)
Arranz, F.J.; Borondo, F.; Benito, R.M.
PUB. DATE
August 1997
SOURCE
Journal of Chemical Physics;8/15/1997, Vol. 107 Issue 7, p2395
SOURCE TYPE
Academic Journal
DOC. TYPE
Article
ABSTRACT
Reports that the correlation diagram of the LiNC/LiCN isomerizing system as a function of h, taken as a parameter, is considered in conditions of widespread classical chaos. Characterization of series of isolated avoided crossings of different nature; Interaction matrix elements between adiabatic states analytically calculated.
ACCESSION #
4321440

 

Related Articles

  • Particle simulation of chemical chaos. Geysermans, P.; Baras, F. // Journal of Chemical Physics;7/22/1996, Vol. 105 Issue 4, p1402 

    A microscopic computer experiment is set up to investigate the statistical properties of a homogeneous chemical system undergoing chaos at the macroscopic level. A specific model, the Willamowski–Rössler having a well-defined microscopic counterpart is used. Quantitative comparison...

  • Comment on: ‘‘Chaos in the Showalter–Noyes–Bar–Eli model of the Belousov–Zhabotinskii reaction’’. Györgyi, László; Field, Richard J. // Journal of Chemical Physics;8/1/1990, Vol. 93 Issue 3, p2159 

    The recent numerical work of Lindberg et al. convincingly demonstrates that chemical chaos in a continuous flow, stirred tank reactor (CSTR) can be reproduced by a spatially homogeneous, accurate model of the kinetics of the Belousov–Zhabotinskii(BZ) reaction. However, some problems...

  • How simple molecule get themselves in a twist. Emsley, John // New Scientist;7/31/93, Vol. 139 Issue 1884, p16 

    Cites Louis Pasteur University, Strasbourg, France chemists Jean-Marie Lehn, Rolan Kramer and Annie Marquis-Rigault on the research applications for the inherent tendency for molecular chains to pair up with other chains of the same length. Experiments on copper ions; Instructed mixtures approach.

  • Identification of Biochemical Chaotic Systems with Kinfer. Lecca, Paola; Palmisano, Alida // International Journal of Simulation -- Systems, Science & Techno;2010, Vol. 11 Issue 3, p46 

    In 1814 Laplace wrote: "we must consider the current state of the universe as an effect of its previous state and as a cause of its future state". If we ignore quantum effects, the laws of the classical physics, and consequently those of chemical kinetics, are totally deterministic: knowing the...

  • Periodical forcing for the control of chaos in a chemical reaction. Córdoba, A.; Lemos, M. C.; Jiménez-Morales, F. // Journal of Chemical Physics;1/7/2006, Vol. 124 Issue 1, p014707 

    Control of the chaotic behavior of a chemical system can be achieved perturbing periodically some control parameters of the system. This procedure based on external forcing, which is based on the phenomenon of resonance, can change a chaotic behavior into a periodical one by means of the...

  • Kinetics and Activation Parameters for the Alkaline Aqueous Rearrangement of Trichorfon [O,O-Dimethyl-(2,2,2-Trichloro-1-Hydroxyethyl) Phosphonate] to Dichlorvos [O,O-Dimethyl-O-(2,2-DIchloroethenyl)Phosphate]. Dust, Julian M.; Warren, Christopher S. // Water Quality Research Journal of Canada (Canadian Association o;2001, Vol. 36 Issue 3, p589 

    The kinetics of the alkaline rearrangement of O,O-dimethyl-(2,2,2-trichloro-1hydroxyethyl)phosphonate, (trichlorfon, 1), the active insecticidal component in such formulations as Dylox, was followed at 25±0.5°C by high pressure liquid chromatography (UV-vis detector, 210 nm). The...

  • Model of the primary rearrangement processes at liquid phase sintering and selective laser... Anestiev, L.A.; Froyen, L. // Journal of Applied Physics;10/1/1999, Vol. 86 Issue 7, p4008 

    Presents information on a study which made a theoretical description of the rearrangement processes at selective laser sintering (SLS) and liquid phase sintering (LPS) due to biparticle interactions. Main processes at LPS and SLS; Experimental procedures; Results and discussion; Conclusions.

  • For the record.  // New Scientist;10/22/2011, Vol. 212 Issue 2835, p35 

    A correction to an article about quantum biology in the October 1, 2011 issue is presented.

  • Bonding by atomic rearrangement of InP/InGaAsP 1.5 mum wavelength lasers on GaAs substrates. Lo, Y.H.; Bhat, R.; Hwang, D.M.; Koza, M.A.; Lee, T.P. // Applied Physics Letters;5/6/1991, Vol. 58 Issue 18, p1961 

    Describes the bonding by atomic rearrangement, a technique developed to realize high quality heteroepitaxy for lasers and optoelectronics. High-performance lasers of 1.5 mum wavelength fabricated on GaAs substrates using the method; Threshold current and quantum efficiency of the laser.

Share

Read the Article

Courtesy of THE LIBRARY OF VIRGINIA

Sorry, but this item is not currently available from your library.

Try another library?
Sign out of this library

Other Topics