Qu Center

Quantum Control and Manipulation

Controlling quantum systems with precision is key to unlocking their full potential. Our research explores fundamental quantum control tasks to uncover the principles that govern quantum information processing. However, real-world implementations are inevitably affected by control errors and environmental decoherence. We investigate how these imperfections impact our ability to manipulate quantum systems and how to mitigate them. Through these efforts, we aim to develop more effective control strategies, paving the way for more powerful and robust quantum information processing.

Non-Classicality in Quantum Systems.

Quantum mechanics reveals phenomena that challenge classical intuition, showcasing the unique nature of quantum systems. We explore the fundamental principles of quantum non-classicality and how they manifest in the manipulation of quantum states. By deepening our understanding of these principles, we aim to uncover new ways to harness quantum mechanics for information processing that transcends classical limitations.

RESEARCH

NII

japan

Quantum Control and Manipulation

Non-Classicality in Quantum Systems.