Quantum Chaos and Statistical Nuclear Physics
Quantum Chaos and Statistical Nuclear Physics Proceedings of the 2nd International Conference on Quantum Chaos and the 4th International Colloquium on Statistical Nuclear Physics, Held at Cuernavaca, México, January 6–10, 1986 / [electronic resource] :
edited by T. H. Seligman, H. Nishioka.
- IX, 382 p. 41 illus. online resource.
- Lecture Notes in Physics, 263 0075-8450 ; .
- Lecture Notes in Physics, 263 .
Riemann's Zeta function: A model for quantum chaos? -- Spectral fluctuations of classically chaotic quantum systems -- Chaotic motion and statistical nuclear theory -- Tests of spectrum and strength fluctuations with proton resavances -- Survey of correlation properties of polyatomic molecules vibrational energy levels using F. T. analysis -- Nuclear level densities and level spacing distributions -- Recent progress in the theory of random-matrix models -- Spectral fluctuations and time-reversal invariance -- Antiunitary symmetries and energy level statistics -- Spectral statistics of scale invariant systems -- Spectral fluctuations in the three-level LMG model -- Fluctuation properties of regular and irregular spectra -- Numerical calculation of correlation properties of sparse real symmetric random matrix -- Energy level fluctuations for ‘deformed’ ensembles -- Qualitative properties of eigenfunctions of classically chaotic Hamiltonian systems -- Quantum ergodicity in a quantum measure algebra: Intensity fluctuations in molecular spectra -- A bound on time-reversal noninvariance from transition-strength fluctuations -- Semiclassical energy spectrum of quasi-integrable systems -- Localization in the quantum description of the periodically perturbed rotor -- From localized to extended states in a time-dependent quantum model -- Quantum limitations of chaos and subthreshold ionization in hydrogen atom -- Resonance overlap in quantum systems -- On the universality of fluctuations of energy and quasi-energy spectra -- Probability flow in multi-step reactions -- A macroscopic approach to statistical phenomena -- Statistical origin of complex particles in intermediate energy heavy ion reactions -- Quantum statistical aspects of non-equilibrium particle emission in intermediate-energy nucleus-nucleus collisions -- Statistical theory of precompound nuclear reactions -- Large scale nuclear collective motion: From local RPA to transport theory -- Statistical features of the effective Hamiltonian and the many body bound state problem -- Regularity of motion and spectra: Polyatomic rotation and vibration -- Resonances and resonant states in non-local potentials -- Integrability, chaos and nonlinear superposition formulas for differential matrix Riccati equations.
9783540472308
10.1007/3-540-17171-1 doi
Quantum theory.
Nuclear physics.
Nuclear fusion.
Thermodynamics.
Statistical physics.
Elementary Particles, Quantum Field Theory.
Nuclear Physics, Heavy Ions, Hadrons.
Nuclear Fusion.
Thermodynamics.
Complex Systems.
Statistical Physics and Dynamical Systems.
QC793-793.5 QC174.45-174.52
539.72
Riemann's Zeta function: A model for quantum chaos? -- Spectral fluctuations of classically chaotic quantum systems -- Chaotic motion and statistical nuclear theory -- Tests of spectrum and strength fluctuations with proton resavances -- Survey of correlation properties of polyatomic molecules vibrational energy levels using F. T. analysis -- Nuclear level densities and level spacing distributions -- Recent progress in the theory of random-matrix models -- Spectral fluctuations and time-reversal invariance -- Antiunitary symmetries and energy level statistics -- Spectral statistics of scale invariant systems -- Spectral fluctuations in the three-level LMG model -- Fluctuation properties of regular and irregular spectra -- Numerical calculation of correlation properties of sparse real symmetric random matrix -- Energy level fluctuations for ‘deformed’ ensembles -- Qualitative properties of eigenfunctions of classically chaotic Hamiltonian systems -- Quantum ergodicity in a quantum measure algebra: Intensity fluctuations in molecular spectra -- A bound on time-reversal noninvariance from transition-strength fluctuations -- Semiclassical energy spectrum of quasi-integrable systems -- Localization in the quantum description of the periodically perturbed rotor -- From localized to extended states in a time-dependent quantum model -- Quantum limitations of chaos and subthreshold ionization in hydrogen atom -- Resonance overlap in quantum systems -- On the universality of fluctuations of energy and quasi-energy spectra -- Probability flow in multi-step reactions -- A macroscopic approach to statistical phenomena -- Statistical origin of complex particles in intermediate energy heavy ion reactions -- Quantum statistical aspects of non-equilibrium particle emission in intermediate-energy nucleus-nucleus collisions -- Statistical theory of precompound nuclear reactions -- Large scale nuclear collective motion: From local RPA to transport theory -- Statistical features of the effective Hamiltonian and the many body bound state problem -- Regularity of motion and spectra: Polyatomic rotation and vibration -- Resonances and resonant states in non-local potentials -- Integrability, chaos and nonlinear superposition formulas for differential matrix Riccati equations.
9783540472308
10.1007/3-540-17171-1 doi
Quantum theory.
Nuclear physics.
Nuclear fusion.
Thermodynamics.
Statistical physics.
Elementary Particles, Quantum Field Theory.
Nuclear Physics, Heavy Ions, Hadrons.
Nuclear Fusion.
Thermodynamics.
Complex Systems.
Statistical Physics and Dynamical Systems.
QC793-793.5 QC174.45-174.52
539.72