Experimental Decoding Scrambled Quantum Information from the Future

Abstract: Quantum information scrambling describes the rapid spread of initially localized information across an entire quantum many-body system through entanglement generation. Once scrambled, the original local information becomes encoded globally, inaccessible from any single subsystem. In this work, we introduce a protocol that enables information scrambling into the past, allowing decoding even before the original information is generated. This protocol is achieved by simulating a closed timelike curve (a theoretical construct in which particles can traverse backward in time) using probabilistic methods. Remarkably, we find that stronger scrambling dynamics enhance the fidelity of the decoding process. We further present a quantum circuit design and experimentally implement our protocol on cloud-based Quantinuum and IBM quantum computers. Our approach illuminates a unique quantum task: retrieving information encoded in the future without altering the past.