Topological Bloch oscillations
Abstract
Bloch oscillations originate from the translational symmetry of crystals. These oscillations occur with a fundamental period that a semiclassical wavepacket takes to traverse a Brillouin-zone loop. We introduce a new type of Bloch oscillations whose periodicity is an integer () multiple of the fundamental period. The period multiplier is a topological invariant protected by the space groups of crystals, which include more than just translational symmetries. For example, divides for crystals with an -fold rotational or screw symmetry; with a reflection, inversion or glide symmetry, equals two. We identify the commonality underlying all period-multiplied oscillations: the multi-band Berry-Zak phases, which encode the holonomy of adiabatic transport of Bloch functions in quasimomentum space, differ pairwise by integer multiples of . For a class of multi-band subspaces whose projected-position operators commute, period multiplication has a complementary explanation through the real space distribution of Wannier functions. This complementarity follows from a one-to-one correspondence between Berry-Zak phases and the centers of Wannier functions. A Wannier description of period multiplication does not always exist, as we exemplify with band subspaces with either a nonzero Chern number or Kane-Mele topological order. To help identify band subspaces with , a general theorem is presented that outputs Zak phases that are symmetry-protected to integer multiples of , given the point-group symmetry representation of any gapped band subspace. A cold-atomic experiment that has observed period-multiplied Bloch oscillations is discussed, and directions are provided for future experiments.
Keywords
Cite
@article{arxiv.1708.02943,
title = {Topological Bloch oscillations},
author = {J. Höller and A. Alexandradinata},
journal= {arXiv preprint arXiv:1708.02943},
year = {2018}
}
Comments
27 pages main text, 12 pages appendix, 26 pages of (single-column) supplementary material for beginners; published version