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چکیده
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The development of quantum batteries presents a unique opportunity to harness the advantages of quantum mechanics in energy storage and conversion. Unlike classical batteries, which face inherent limitations in efficiency and charging rates, quantum batteries exploit quantum superposition and entanglement to potentially achieve superior performance. However, current designs often depend on precise timing and control mechanisms, which complicates their practical applications. This research addresses the challenge of developing robust and efficient charging protocols for quantum batteries by investigating the interaction of three-level atoms with laser fields in cavity quantum electrodynamics (QED). The core problem lies in enabling effective charging without the constraints posed by precise control of interaction times or environmental factors.
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