Abstract
Bloch band theory and bulk-boundary correspondence in non-Hermitian systems are attracting great attention in different areas of science. Interband transitions and Rabi flopping induced by emission or absorption of field quanta are fundamental and well-understood processes in Hermitian systems. However, they are challenged in a non-Hermitian system, where band theory is affected by system boundaries. Here we consider Rabi oscillations in non-Hermitian lattices exhibiting unbalanced non-Hermitian skin effect, and unveil an unprecedented scenario of Rabi flopping. The effective dipole moment of the transition - usually considered a bulk property - is however strongly dependent on boundary conditions. Rabi oscillations become anharmonic and transitions cease to be vertical in the energy-momentum plane in systems with open boundaries. Remaining stable even in the presence of complex energies, Rabi oscillations provide a vivid illustration of how competition between non-Hermitian, non-local and Floquet effects can result in significant enhancements of physically measurable quantities.
Highlights
Bloch band theory and bulk-boundary correspondence in non-Hermitian systems are attracting great attention in different areas of science
The coherent dynamics of electrons in crystalline potentials under time-periodic driving fields is at the heart of such major phenomena as photon-assisted transport, Rabi oscillations (ROs), dynamic localization, and super-Bloch oscillations[1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18]
We show how non-Hermitian influences can disclose a scenario fully distinct from common Rabi flopping, hosting novel features such as enhancement of the effective dipole moment arising from the non-Hermitian skin effect, non-vertical transitions and anharmonic ROs, providing unprecedented freedom in controlling the frequency and anharmonicity of ROs
Summary
Bloch band theory and bulk-boundary correspondence in non-Hermitian systems are attracting great attention in different areas of science. B Under open boundary conditions (OBC), transitions between non-Bloch bands can be oblique in the (k, E) plane.
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