Quantal Two-Centre Coulomb Problem treated by means of the Phase-Integral Method III. Quantization Conditions in the General Case Expressed in Terms of Complete Elliptic Integrals. Numerical Illustration
Quantification of depth of anesthesia by nonlinear time series analysis of brain electrical activity
Quantifiers for randomness of chaotic pseudo random number generators
Quantifying Emergence in terms of Persistent Mutual Information
Quantifying intermittency in the open drivebelt billiard
Quantifying Self-Organization in Cyclic Cellular Automata
Quantifying Self-Organization with Optimal Predictors
Quantifying Spatiotemporal Chaos in Rayleigh-Bénard Convection
Quantifying the complexity of random Boolean networks
Quantifying turbulence induced segregation of inertial particles
Quantisation of bending flows
Quantitative indicator for semiquantum chaos
Quantitative laboratory observations of internal wave reflection on ascending slopes
Quantitative predictions with detuned normal forms
Quantitative study of scars in the boundary section of the stadium billiard
Quantization of a billiard model for interacting particles
Quantization of a Free Particle Interacting Linearly with a Harmonic Oscillator
Quantization of Classical Maps with tunable Ruelle-Pollicott Resonances
Quantization of generic chaotic 3D billiard with smooth boundary I: energy level statistic
Quantization of generic chaotic 3D billiard with smooth boundary II: structure of high-lying eigenstates