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Main Authors: Schumann, Jan Carlo, Lesanovsky, Igor, Solanki, Parvinder
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2601.09779
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author Schumann, Jan Carlo
Lesanovsky, Igor
Solanki, Parvinder
author_facet Schumann, Jan Carlo
Lesanovsky, Igor
Solanki, Parvinder
contents Spontaneous symmetry breaking is one of the central organizing principles in physics. Time crystals have emerged as an exotic phase of matter, spontaneously breaking the time translational symmetry, and are mainly categorized as discrete or continuous. While these distinct types of time crystals have been extensively explored as standalone systems, intriguing effects can arise from their mutual interaction. Here, we demonstrate that a time-independent coupled system of discrete and continuous time crystals induces a simultaneous two-fold temporal symmetry breaking, resulting in a hierarchical time crystal phase. Interestingly, one of the subsystems breaks an emergent discrete temporal symmetry that does not exist in the dynamical generator but rather emerges dynamically, leading to a convoluted non-equilibrium phase. We demonstrate that hierarchical time crystals are robust, emerging for fundamentally different coupling schemes and persisting across wide ranges of system parameters.
format Preprint
id arxiv_https___arxiv_org_abs_2601_09779
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Hierarchical time crystals
Schumann, Jan Carlo
Lesanovsky, Igor
Solanki, Parvinder
Quantum Physics
Spontaneous symmetry breaking is one of the central organizing principles in physics. Time crystals have emerged as an exotic phase of matter, spontaneously breaking the time translational symmetry, and are mainly categorized as discrete or continuous. While these distinct types of time crystals have been extensively explored as standalone systems, intriguing effects can arise from their mutual interaction. Here, we demonstrate that a time-independent coupled system of discrete and continuous time crystals induces a simultaneous two-fold temporal symmetry breaking, resulting in a hierarchical time crystal phase. Interestingly, one of the subsystems breaks an emergent discrete temporal symmetry that does not exist in the dynamical generator but rather emerges dynamically, leading to a convoluted non-equilibrium phase. We demonstrate that hierarchical time crystals are robust, emerging for fundamentally different coupling schemes and persisting across wide ranges of system parameters.
title Hierarchical time crystals
topic Quantum Physics
url https://arxiv.org/abs/2601.09779