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arxiv: 2406.06301 · v1 · pith:4VGD5B2Onew · submitted 2024-06-10 · 🪐 quant-ph

Quantum Geometric Tensor and Critical Metrology in the Anisotropic Dicke Model

classification 🪐 quant-ph
keywords anisotropicclassicalquantumcriticallimitspincouplingdicke
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We investigate the quantum phase transition in the anisotropic Dicke model through an examination of the quantum geometric tensor of the ground state. In this analysis, two distinct classical limits exhibit their unique anisotropic characteristics. The classical spin limit demonstrates a preference for the rotating-wave coupling, whereas the classical oscillator limit exhibits symmetry in the coupling strength of the bias. The anisotropic features of the classical spin limit persist at finite scales. Furthermore, we observe that the interplay among the anisotropic ratio, spin length, and frequency ratio can collectively enhance the critical behaviors. This critical enhancement without trade-off between these factors provides a flexible method for quantum precision measurement.

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