Realization of maximally-entangling two-qutrit gates using the Cross-Resonance scheme

• URL: http://arxiv.org/abs/2504.15265v1
• Date: Mon, 21 Apr 2025 17:47:16 GMT
• Title: Realization of maximally-entangling two-qutrit gates using the Cross-Resonance scheme
• Authors: Yash Saxena, Sagnik Chatterjee, Tharrmashastha Sapv,
• Abstract summary: Three-level systems have natural advantages over their two-level counterparts in quantum information and computation.<n>We show that a maximally entangling two-qutrit gate is necessary for universal quantum computation using three-level systems.
• Score: 0.0
• License: http://creativecommons.org/licenses/by-sa/4.0/
• Abstract: Three-level systems have natural advantages over their two-level counterparts in quantum information and computation. Although generally used for qubits, the existing superconducting transmon architecture can naturally be extended to three levels, which allows the exploration of the entire qutrit Hilbert space. Realizing a maximally entangling two-qutrit gate is necessary for universal quantum computation using three-level systems. Our work extends the state-of-the-art approach by providing a theoretical framework for realizing a high-fidelity two-qutrit generalized CR gate using the cross-resonance framework. Using our framework, we experimentally demonstrate two-qutrit generalized controlled-$\sqrt{X}$ gates through simulations on QISKIT dynamics, which in turn allow us to obtain a maximum extracted concurrence of $97.2\pm0.1\%$, thereby demonstrating that entanglement has been achieved on all three levels. Using the above gates, we also prepare a two-qutrit Bell state with a fidelity of $96.9\pm 0.1\%$.

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