The anti-Fermi–Pasta–Ulam–Tsingou problem in one-dimensional diatomic lattices

We study the thermalization dynamics of one-dimensional diatomic lattices (which represents the simplest system possessing multi-branch phonons), exemplified by the famous Fermi–Pasta–Ulam–Tsingou (FPUT)- β and the Toda models. Here we focus on how the system relaxes to the equilibrium state when pa...

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Veröffentlicht in:	Journal of statistical mechanics 2022-05, Vol.2022 (5), p.53104
Hauptverfasser:	Feng, Sihan, Fu, Weicheng, Zhang, Yong, Zhao, Hong
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Sprache:	eng
Schlagworte:	breaking integrability numerical simulations thermalization
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description	We study the thermalization dynamics of one-dimensional diatomic lattices (which represents the simplest system possessing multi-branch phonons), exemplified by the famous Fermi–Pasta–Ulam–Tsingou (FPUT)- β and the Toda models. Here we focus on how the system relaxes to the equilibrium state when part of highest-frequency optical modes are initially excited, which is called the anti-FPUT problem comparing with the original FPUT problem (low frequency excitations of the monatomic lattice). It is shown numerically that the final thermalization time T eq of the diatomic FPUT- β chain depends on whether its acoustic modes are thermalized, whereas the T eq of the diatomic Toda chain depends on the optical ones; in addition, the metastable state of both models have different energy distributions and lifetimes. Despite these differences, in the near-integrable region, the T eq of both models still follows the same scaling law, i.e. T eq is inversely proportional to the square of the perturbation strength. Finally, comparisons of the thermalization behavior between different models under various initial conditions are briefly summarized.
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Stat. Mech</addtitle><description>We study the thermalization dynamics of one-dimensional diatomic lattices (which represents the simplest system possessing multi-branch phonons), exemplified by the famous Fermi–Pasta–Ulam–Tsingou (FPUT)- β and the Toda models. Here we focus on how the system relaxes to the equilibrium state when part of highest-frequency optical modes are initially excited, which is called the anti-FPUT problem comparing with the original FPUT problem (low frequency excitations of the monatomic lattice). It is shown numerically that the final thermalization time T eq of the diatomic FPUT- β chain depends on whether its acoustic modes are thermalized, whereas the T eq of the diatomic Toda chain depends on the optical ones; in addition, the metastable state of both models have different energy distributions and lifetimes. 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It is shown numerically that the final thermalization time T eq of the diatomic FPUT- β chain depends on whether its acoustic modes are thermalized, whereas the T eq of the diatomic Toda chain depends on the optical ones; in addition, the metastable state of both models have different energy distributions and lifetimes. Despite these differences, in the near-integrable region, the T eq of both models still follows the same scaling law, i.e. T eq is inversely proportional to the square of the perturbation strength. Finally, comparisons of the thermalization behavior between different models under various initial conditions are briefly summarized.</abstract><pub>IOP Publishing and SISSA</pub><doi>10.1088/1742-5468/ac6a5a</doi><tpages>14</tpages><orcidid>https://orcid.org/0000-0002-5420-7985</orcidid><orcidid>https://orcid.org/0000-0001-5313-8466</orcidid><orcidid>https://orcid.org/0000-0001-7667-1386</orcidid><orcidid>https://orcid.org/0000-0001-5808-7936</orcidid></addata></record>
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title	The anti-Fermi–Pasta–Ulam–Tsingou problem in one-dimensional diatomic lattices
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