Localization and equipartition of energy in the b-FPU chain: chaotic breathers

Abstract The evolution towards equipartition in the β-FPU chain is studied considering as initial condition the highest frequency mode. Above an analytically derived energy threshold, this zone-boundary mode is shown to be modulationally unstable and to give rise to a striking localization process. The spontaneously created excitations have strong similarity with moving exact breathers solutions. But they have a finite lifetime and their dynamics is chaotic. These chaotic breathers are able to collect very efficiently the energy in the chain. Therefore their size grows in time and they can transport a very large quantity of energy. These features can be explained analyzing the dynamics of perturbed exact breathers of the FPU chain. In particular, a close connection between the Lyapunov spectrum of the chaotic breathers and the Floquet spectrum of the exact ones has been found. The emergence of chaotic breathers is convincingly explained by the absorption of high frequency phonons whereas a breather's metastability is for the first time identified. The lifetime of the chaotic breather is related to the time necessary for the system to reach equipartition. The equipartition time turns out to be dependent on the system energy density e only. Moreover, such time diverges as e−2 in the limit e → 0 and vanishes as e −1 4 for e → ∞.

[1]  M. Pettini,et al.  Relaxation properties and ergodicity breaking in nonlinear Hamiltonian dynamics. , 1990, Physical review. A, Atomic, molecular, and optical physics.

[2]  N. Zabusky,et al.  Interaction of "Solitons" in a Collisionless Plasma and the Recurrence of Initial States , 1965 .

[3]  C. -. Lin,et al.  Scaling of the recurrence time in the cubic Fermi-Pasta-Ulam lattice , 1997 .

[4]  Serge Aubry,et al.  Breathers in nonlinear lattices: numerical calculation from the anticontinuous limit , 1996 .

[5]  Marco Pettini,et al.  THE FERMI-PASTA-ULAM PROBLEM REVISITED : STOCHASTICITY THRESHOLDS IN NONLINEAR HAMILTONIAN SYSTEMS , 1996, chao-dyn/9609017.

[6]  A. Vulpiani,et al.  Relaxation to different stationary states in the Fermi-Pasta-Ulam model , 1983 .

[7]  V. Rupasov,et al.  Localized vibrations of homogeneous anharmonic chains , 1990 .

[8]  Mobility and reactivity of discrete breathers , 1997, cond-mat/9712046.

[9]  S. Flach,et al.  1D phonon scattering by discrete breathers , 1998 .

[10]  A. Lichtenberg,et al.  Regular and Chaotic Dynamics , 1992 .

[11]  A. Lichtenberg,et al.  Energy transitions and time scales to equipartition in the Fermi-Pasta-Ulam oscillator chain. , 1995, Physical review. E, Statistical physics, plasmas, fluids, and related interdisciplinary topics.

[12]  Robert S. MacKay,et al.  Proof of existence of breathers for time-reversible or Hamiltonian networks of weakly coupled oscillators , 1994 .

[13]  H. Yoshida Construction of higher order symplectic integrators , 1990 .

[14]  Antonio Politi,et al.  Distribution of characteristic exponents in the thermodynamic limit , 1986 .

[15]  Phase plane of moving discrete breathers , 1997, cond-mat/9704118.

[16]  Movability of localized excitations in nonlinear discrete systems: A separatrix problem. , 1994, Physical review letters.

[17]  Kindler-Rohrborn,et al.  In press , 1994, Molecular carcinogenesis.

[18]  Page,et al.  Interrelation between the stability of extended normal modes and the existence of intrinsic localized modes in nonlinear lattices with realistic potentials. , 1994, Physical review. B, Condensed matter.

[19]  Modulational instability: first step towards energy localization in nonlinear lattices , 1997 .

[20]  Chen,et al.  Breather Mobility in Discrete phi4 Nonlinear Lattices. , 1996, Physical review letters.

[21]  G. G. Stokes "J." , 1890, The New Yale Book of Quotations.

[22]  D L Shepelyansky,et al.  Low-energy chaos in the Fermi-Pasta-Ulam problem , 1996 .

[23]  On the approach to equilibrium of a Hamiltonian chain of anharmonic oscillators , 1997, cond-mat/9704213.

[24]  Kantz,et al.  Shock waves and time scales to reach equipartition in the Fermi-Pasta-Ulam model. , 1995, Physical review. E, Statistical physics, plasmas, fluids, and related interdisciplinary topics.

[25]  Page,et al.  Asymptotic solutions for localized vibrational modes in strongly anharmonic periodic systems. , 1990, Physical review. B, Condensed matter.

[26]  A. Lichtenberg,et al.  Chaos and the approach to equilibrium in a discrete sine-Gordon equation , 1992 .

[27]  Stefano Ruffo,et al.  Exact solutions in the FPU oscillator chain , 1995, chao-dyn/9510017.

[28]  O. Bang,et al.  Generation of high-energy localized vibrational modes in nonlinear Klein-Gordon lattices. , 1996, Physical review. E, Statistical physics, plasmas, fluids, and related interdisciplinary topics.

[29]  Peyrard,et al.  Energy localization in nonlinear lattices. , 1993, Physical review letters.