Topological Quantum Batteries
- URL: http://arxiv.org/abs/2405.03675v2
- Date: Mon, 13 May 2024 07:55:26 GMT
- Title: Topological Quantum Batteries
- Authors: Zhi-Guang Lu, Guoqing Tian, Xin-You Lü, Cheng Shang,
- Abstract summary: We analytically explore the thermodynamic performances of quantum batteries (QBs)
We observe near-perfect energy transfer from the quantum charger to the quantum battery (QB) in the topologically nontrivial phase.
As dissipation intensifies along with the emergence of the quantum Zeno effect, the charging power of QBs is transiently enhanced.
- Score: 0.3749861135832073
- License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
- Abstract: We propose an innovative design for topological quantum batteries that involves coupling two atoms to a one-dimensional lattice with topological features. Employing the resolvent method, we analytically explore the thermodynamic performances of quantum batteries (QBs). First, we demonstrate that only coherent bound states significantly contribute to the stored energy of QBs. We observe near-perfect energy transfer from the quantum charger to the quantum battery (QB) in the topologically nontrivial phase. Conversely, in the topologically trivial phase, we reveal that under the Markov limit, the charging process of the QB is almost completely prohibited due to the emergence of degenerate zero-energy bound states. Moreover, we discover that the maximum energy storage exhibits singular behavior at the phase boundaries. Second, we find that direct coupling between the QB and quantum charger renders the ergotropy immune to sublattice dissipation, facilitated by the presence of a dark state and vacancy-like dressed bound state. Further, we show that as dissipation intensifies along with the emergence of the quantum Zeno effect, the charging power of QBs is transiently enhanced. Our findings provide insightful guidelines for practically enhancing the performance of QBs through structured reservoir engineering.
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