Su-Schrieffer-Heeger model driven by sequences of two unitaries: periodic, quasiperiodic, aperiodic, and random protocols

Abstract

We study the effect of driving the Su-Schrieffer-Heeger model using two unitary operators U1 and U2 in different combinations; the unitaries differ in the values of the inter-cell hopping amplitudes. Specifically, we study the cases where the unitaries are applied periodically, quasiperiodically, aperiodically and randomly. For a periodic protocol, when U1 = e-i H1 T/2 and U2 = e-i H2 T/2 are applied alternately, we find that end modes may appear, but the number of end modes does not always agree with the winding number which is a Z-valued topological invariant. We then study the Loschmidt amplitude (LA) starting with a initial state which is an end mode of H1. We find that the LA exhibits pronounced oscillations whose Fourier transform has a peak at a frequency which is equal to the quasienergy of an end mode of U. Next, when U1 and U2 are applied in a quasiperiodic or aperiodic way (we consider the Fibonacci and Thue-Morse protocols as examples), we study the Loschmidt echo (LE) starting with an initial state which is an end mode of the Hamiltonian H1. When the inter-cell hoppings differ by a small amount denoted by ε, and the time period T of each unitary is also small, the distance between the unitaries is found to be proportional to εT. We then find that the LE oscillates around a particular value for a very long time before decaying to zero. The deviation of the value of the LE from 1 scales as ε2 for a fixed value of T, while the time after which the LE starts decaying to zero has an interesting dependence on ε and T. Finally, when U1 and U2 are applied in a random order, the LE rapidly decays to zero with increasing time. We have presented a qualitative understanding of the above results.