Metaverse drive Z-FFR physical design

Pan Liu; Zilong Yuan; Huan Mao; Gaoyang Liu; Wenbin Xiong; Zhangchun Tang

doi:10.1117/12.3025424

28 February 2024 Metaverse drive Z-FFR physical design

Pan Liu, Zilong Yuan, Huan Mao, Gaoyang Liu, Wenbin Xiong, Zhangchun Tang

Proceedings Volume 13071, International Conference on Mechatronic Engineering and Artificial Intelligence (MEAI 2023); 1307139 (2024) https://doi.org/10.1117/12.3025424
Event: International Conference on Mechatronic Engineering and Artificial Intelligence (MEAI 2023), 2023, Shenyang, China

Abstract

Metaverse is a virtual blockchain technology-based world that combines real-world data and digital assets with a virtual world. The emergence of Metaverse provides new methods and ideas for the physical design of fusion ignition. This paper focuses on the concept, characteristics, and application of meta-universe in the physical design of fusion ignition. This paper firstly introduces the basic principles and challenges of fusion ignition, then details the concepts and technical characteristics of meta-universe, and finally describes the application of meta-universe in Z-FFR (Z-pinch driven fusion-fission hybrid reactor) physical design, including data sharing, virtual simulation, intelligent contracts, and other aspects. In this study, the performance of the device was significantly improved by a meta-universe-driven design. The design cycle was dramatically shortened, the device durability was increased by a factor of 10, 000, and the delay jitter was reduced to 1-2 ns. At the same time, the neutron yield was increased by more than two orders of magnitude in terms of fusion physics. This paper argues that the emergence of meta-universe will further promote the physical design of fusion ignition and improve design efficiency and reliability.

(2024) Published by SPIE. Downloading of the abstract is permitted for personal use only.

Citation Download Citation

Pan Liu, Zilong Yuan, Huan Mao, Gaoyang Liu, Wenbin Xiong, and Zhangchun Tang "Metaverse drive Z-FFR physical design", Proc. SPIE 13071, International Conference on Mechatronic Engineering and Artificial Intelligence (MEAI 2023), 1307139 (28 February 2024); https://doi.org/10.1117/12.3025424

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