Santos Lea F, Rigol Marcos
Department of Physics, Yeshiva University, New York, New York 10016, USA.
Phys Rev E Stat Nonlin Soft Matter Phys. 2010 Mar;81(3 Pt 2):036206. doi: 10.1103/PhysRevE.81.036206. Epub 2010 Mar 5.
By means of full exact diagonalization, we study level statistics and the structure of the eigenvectors of one-dimensional gapless bosonic and fermionic systems across the transition from integrability to quantum chaos. These systems are integrable in the presence of only nearest-neighbor terms, whereas the addition of next-nearest-neighbor hopping and interaction may lead to the onset of chaos. We show that the strength of the next-nearest-neighbor terms required to observe clear signatures of nonintegrability is inversely proportional to the system size. Interestingly, the transition to chaos is also seen to depend on particle statistics, with bosons responding first to the integrability breaking terms. In addition, we discuss the use of delocalization measures as main indicators for the crossover from integrability to chaos and the consequent viability of quantum thermalization in isolated systems.
通过完全精确对角化,我们研究了一维无隙玻色子和费米子系统从可积性到量子混沌转变过程中的能级统计和本征向量结构。这些系统在仅存在最近邻项时是可积的,而添加次近邻跳跃和相互作用可能会导致混沌的出现。我们表明,观察到非可积性明确特征所需的次近邻项的强度与系统大小成反比。有趣的是,向混沌的转变也被发现取决于粒子统计,玻色子首先对破坏可积性的项做出响应。此外,我们讨论了使用离域化度量作为从可积性到混沌转变的主要指标以及孤立系统中量子热化的相应可行性。