Industry Engagement | HHMAX-ENERGY Participates in the 8th International Conference on Materials and Radiation under Extreme Conditions (ICMRE 2025)
From May 12 to 15, the 8th International Conference on Matter and Radiation under Extreme Conditions (ICMRE2025) was held in Xi'an, Shaanxi Province. Co-hosted by the Institute of Applied Physics and Computational Mathematics, Chinese Academy of Sciences, and Shaanxi Normal University, and supported by the journal Matter and Radiation at Extremes (MRE), the conference aimed to advance international exchange in the field of matter and radiation research under extreme conditions and promote the development of related disciplines. HHMAX-ENERGY participated in the conference and presented a keynote address at the “Inertial Confinement Fusion and Innovative Fusion” subforum.
HHMAX-ENERGY R&D personnel attended the meeting.
The China Academy of Engineering Physics launched the English-language academic journal Matter and Radiation at Extremes (MRE) in 2016. Targeting scholars worldwide in the field of extreme science and technology research, MRE organizes the International Conference on Matter and Radiation at Extremes (ICMRE) series. This initiative aims to establish an open, accessible, and high-level academic exchange platform for the field, promoting the dissemination and utilization of advanced knowledge achievements. This conference attracted experts and scholars from multiple countries worldwide, who engaged in sharing and discussions on various themes including fundamental physics under extreme conditions, inertial confinement fusion and innovative fusion, radiation hydrodynamics, high-pressure physics, and materials science. HHMAX-ENERGY's Chief Physicist Zheng Chunyang and Plasma Simulation Researcher Tao Zhihao represented the company at the conference.
During the Inertial Confinement Fusion and Innovative Fusion subforum, Tao Zhihao delivered a presentation titled “The Coupling Mechanism of Confinement and Dissipation in Dynamic FRC Plasma Transport.” highlighting the linear field-reversed configuration (FRC) technology. He noted that these research findings have been successfully applied to HHMAX-ENERGY's fusion device HHMAX-901, holding significant implications for advancing the commercialization of controlled nuclear fusion. HHMAX-ENERGY's presentation garnered significant attention from attendees. Following the session, participants actively posed questions and engaged in in-depth discussions with the company's R&D team.
HHMAX-ENERGY R&D personnel delivered keynote presentations and engaged in interactive discussions with attendees.
Through this conference, HHMAX-ENERGY R&D personnel further engaged in exchanges with industry peers, focusing on discussions about inertial confinement fusion and innovative fusion approaches. This holds significant importance for advancing the commercialization of controlled nuclear fusion.
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Matter and Radiation at Extremes (MRE) is the world's first professional academic journal dedicated to extreme science and technology, founded by the China Academy of Engineering Physics. MRE aims to promptly report significant achievements and latest advancements in theoretical, experimental, and applied research within the extreme science and technology field, providing a world-class academic exchange platform for global researchers. Since its launch in 2016, MRE has been indexed by major international databases including SCI, EI, Scopus, Inspec, Proquest, EBSCO, CNKI, VIP, and the Chinese Science Citation Database (CSCD). In 2023, its SCIE impact factor reached 4.8, placing it in the first quartile (Q1) of the SCIE comprehensive physics category.
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