On Measures in Ion Trap Quantum Information
- URL: http://arxiv.org/abs/2501.14359v2
- Date: Tue, 11 Feb 2025 16:30:36 GMT
- Title: On Measures in Ion Trap Quantum Information
- Authors: Reza Pirmoradian, M Reza Tanhayi,
- Abstract summary: In this study, we investigate quantum information measures in ion traps.<n>Our findings confirm that, in the steady-state case, mutual information and synchronization measures exhibit similar behaviors.<n>We discuss the coherent state of a single ion in a trap, noting an inverse relationship between complexity and fidelity-where increased fidelity corresponds to decreased system complexity.
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- License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
- Abstract: In this study, we investigate quantum information measures in ion traps by utilizing the harmonic oscillator model to characterize trapped potentials and ion dynamics. Our findings confirm that, in the steady-state case, mutual information and synchronization measures exhibit similar behaviors. Additionally, we explore how these measures change in the quench model and how they are influenced by coupling and external noise, such as an external magnetic field. Moreover, for a proposed target ground state, we determine the circuit depth and analyze the effects of the external magnetic field and coupling constant, highlighting their dynamic evolution over time. We also discuss the coherent state of a single ion in a trap, noting an inverse relationship between complexity and fidelity-where increased fidelity corresponds to decreased system complexity, indicating a more ordered state with improved control and optimization. However, at higher system frequencies, complexity increases due to intricate interactions and rapid state changes, necessitating advanced control mechanisms.
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