报告题目: Quantum error correction based on bosonic codes

报告摘要: Quantum information is vulnerable to environmental noise and experimental imperfections, which can impede the reliability of practical quantum information processors. As a result, quantum error correction (QEC) is essential for protecting quantum information against noise, making it crucial for universal and scalable quantum computation. Bosonic modes, with their infinitely large Hilbert space, enable redundant information encoding, making them a hardware-efficient solution for QEC. In this talk, I will discuss the fundamentals of QEC, highlight the advantages of QEC based on bosonic codes, and present the latest experimental advancements in this field.

报告人简介：Dr. Luyan Sun earned his bachelor’s degree from the Department of Physics at Zhejiang University. He then pursued his PhD at the University of Maryland, College Park, focusing primarily on silicon-based quantum computation. After obtaining his PhD, he moved to Yale University to work on quantum computation based on superconducting circuits as a postdoctoral researcher. Since 2013, Dr. Sun has been at the Institute for Interdisciplinary Information Sciences at Tsinghua University, where he leads his own lab dedicated to superconducting quantum computation. His research interests include quantum feedback, quantum error correction, quantum control, and quantum metrology. In 2019, Dr. Sun was selected to the National Science Fund for Distinguished Young Scholars.

主持联系人：古英(电话：62752882)

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