December 23, 2024

Comprehensive Overview of Progress Achieved in the Field of Quantum Teleportation

Through entanglement circulation and Bell-state measurement, quantum teleportation makes it possible for the nonlocal transmission of an unidentified quantum state, which has deepened the understanding of quantum entanglement. Quantum teleportation can efficiently overcome the distance limitation of direct transmission of quantum states in quantum interaction, as well as recognize long-range interactions in between various quantum bits in quantum computing.
They have actually also made significant progress in areas such as high-dimensional quantum thick coding, high-dimensional quantum assistance, and high-dimensional quantum teleportation.

Based upon the crucial development made by the research study group over the years in high-dimensional quantum teleportation and high-dimensional quantum communication, Dr. Iulia Georgescu, primary editor of Nature Review Physics, welcomed Guos team to compose an evaluation paper about advances in quantum teleportation.
Teleportation has advanced a lot in both theoretical research study and experimental verification. It is currently at the crucial stage from proof-of-principle to useful application. This paper talked about potential applications and future development in quantum interaction and quantum computing in depth, which will promote the practical development of quantum innovation.
Recommendation: “Progress in quantum teleportation” by Xiao-Min Hu, Yu Guo, Bi-Heng Liu, Chuan-Feng Li and Guang-Can Guo, 24 May 2023, Nature Reviews Physics.DOI: 10.1038/ s42254-023-00588-x.

Prof. Guangcan Guos group from CAS and USTC released a thorough review on quantum teleportation, highlighting its importance in quantum communication and computing. The groups improvements consist of creating a high-fidelity 32-dimensional quantum entanglement and its successful transmission over cross countries, with the paper also talking about quantum technologys future practical advancement.
A group led by Academician Prof. Guangcan Guo from the Chinese Academy of Sciences (CAS) provides a detailed introduction of the progress attained in the field of quantum teleportation. The group, which includes Prof. Xiaomin Hu, Prof. Yu Guo, Prof. Biheng Liu, and Prof. Chuanfeng Li from the University of Science and Technology of China (USTC), CAS, was invited to release an evaluation paper on quantum teleportation in the peer-reviewed clinical journal Nature Review Physics. The paper was officially released online on May 24.
As one of the most essential protocols in the field of quantum details, quantum teleportation has brought in great attention considering that it was proposed in 1993. Through entanglement distribution and Bell-state measurement, quantum teleportation makes it possible for the nonlocal transmission of an unknown quantum state, which has deepened the understanding of quantum entanglement. More importantly, quantum teleportation can effectively conquer the distance limitation of direct transmission of quantum states in quantum communication, in addition to recognize long-range interactions between various quantum bits in quantum computing.
The group, under the management of Prof. Biheng Liu and Prof. Chuanfeng Li, has been at the leading edge of speculative studies on high-dimensional quantum teleportation and quantum networks. Their notable achievements consist of the effective preparation of the worlds greatest fidelity 32-dimensional quantum entanglement, the effective transmission of high-dimensional entanglement over 11 kilometers of optical fiber, and the advancement of efficient strategies for quantum entanglement detection. They have also made considerable progress in areas such as high-dimensional quantum dense coding, high-dimensional quantum guidance, and high-dimensional quantum teleportation.