| Resumen |
This research explores the measurement and enhancement of entanglement between two rotational modes generated by rotating mirrors within a ring cavity system. The study specifically focuses on the role of the Casimir force in augmenting the entanglement of these modes. A detailed analysis is conducted to understand the impact of various parameters on the entanglement, including the distances between the external plates and the rotating mirrors (d1=d2), the radius of the rotating mirrors (r1=r2), the temperature (T), and the areas of the external plates. The findings reveal that the presence of the Casimir force significantly enhances the entanglement between the rotational modes. This research introduces a novel technique for modulating the entanglement of rotational modes through the influence of the Casimir force, presenting new possibilities for advancements in quantum information science. © 2024 The Physical Society of the Republic of China (Taiwan) |
