Resumen

SALAZAR, Robert Paul; TELLEZ, Gabriel; JARAMILLO, Diego Felipe  y  GONZALEZ, Diego Luis. Chaos in the Diamond-Shaped Billiard with Rounded Crown. Rev. acad. colomb. cienc. exact. fis. nat. [online]. 2015, vol.39, n.151, pp.152-170. ISSN 0370-3908.  https://doi.org/10.18257/raccefyn.99.

We analyse the classical and quantum behaviour of a particle trapped in a diamond-shaped billiard with rounded crown. We defined this billiard as a half stadium connected with a triangular billiard. A parameter x smoothly changes the shape of the billiard from an equilateral triangle (x = 1) to a diamond with rounded crown (x = 0). The parameter x controls the transition between the regular and chaotic regimes. The classical behaviour is regular when the control parameter x is one; in contrast, the system is chaotic when x ≠ 1 even for values of x close to one. Several quantities such as Lyapunov exponent and the entropy of the distribution of the incident angle are used to characterize the chaotic behaviour of the classical system. The average information preserved by the classical trajectories increases rapidly as x is decreased from 1 and the Lyapunov exponent remains positive for x < 1. The Finite Difference Method was implemented in order to solve the quantum counterpart of the billiard. The energy spectrum and eigenstates were numerically computed for different values of x < 1. The spacing distribution between adjacent eigenvalues is analysed as a function of x, finding a Poisson and a Gaussian Orthogonal Ensemble (GOE) distribution for regular and chaotic regimes respectively. Several scars and bouncing ball states are shown with their corresponding classical periodic orbits. On the other hand, the results found for the quantum billiard are in agreement with the Bohigas-Giannoni-Schmit conjecture and exhibits the standard features of chaotic billiards such as the scarring of the wavefunction.

Palabras clave : caos cuántico; billares cuánticos; matrices aleatorias; método de diferencias finitas.

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