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State Preparation on Quantum Computers via Quantum Steering

Daniel Volya, Prabhat Mishra

2024IEEE Transactions on Quantum Engineering37 citationsDOIOpen Access PDF

Abstract

Quantum computers present a compelling platform for the study of open quantum systems, namely the non-unitary dynamics of a system. Here, we investigate and report digital simulations of Markovian, non-unitary dynamics that converge to a unique steady state. The steady state is programmed as a desired target state, yielding semblance to a quantum state preparation protocol. By delegating ancilla qubits and systems qubits, the system state is driven to the target state by repeatedly performing the following steps: (1) executing a designated system-ancilla entangling circuit, (2) measuring the ancilla qubits, and (3) re-initializing ancilla qubits to known states through active reset. While the ancilla qubits are measured and reinitialized to known states, the system qubits undergo a non-unitary evolution and are steered from arbitrary initial states to desired target states. We show results of the method by preparing arbitrary qubit states and qutrit (three-level) states on contemporary quantum computers. We also demonstrate that the state convergence can be accelerated by utilizing the readouts of the ancilla qubits to guide the protocol in a non-blind manner. Our work serves as a nontrivial example that incorporates and characterizes essential operations such as qubit reuse (qubit reset), entangling circuits, and measurement. These operations are not only vital for near-term noisy intermediate-scale quantum (NISQ) applications but are also crucial for realizing future error-correcting codes.

Topics & Concepts

QubitQuantum computerComputer scienceQutritSuperdense codingReset (finance)State (computer science)Quantum stateQuantum teleportationTopology (electrical circuits)QuantumOne-way quantum computerCluster stateQuantum error correctionQuantum mechanicsPhysicsMathematicsQuantum networkAlgorithmCombinatoricsFinancial economicsEconomicsQuantum Computing Algorithms and ArchitectureQuantum Information and CryptographyQuantum and electron transport phenomena