To actively contribute to building China into a science and technology powerhouse, fully leverage the pivotal role of physics research in driving technological innovation, and foster academic exchange and cross-disciplinary integration between researchers engaged in fundamental and applied physics frontier studies and industry professionals, the Second Applied Physics Conference was held at the University of Electronic Science and Technology of China in Chengdu from April 10 to 13. The conference was hosted by the Chinese Physical Society and co-organized by the University of Electronic Science and Technology of China and the Center for Applied Physics at the Institute of Physics, Chinese Academy of Sciences.

     HHMAX-ENERGY, a leading domestic controlled nuclear fusion company, was invited to participate in this conference. During the event, Zheng Chunyang, the company's Chief Physics Scientist, delivered an invited presentation, while Liang Shaoyong, Head of Diagnostics, gave a conference report. They shared the development progress of the HHMAX-ENERGY field inversion fusion device and the application of electromagnetic induction magnetic signal technology research.

          At the meeting, Zheng Chunyang, Chief Physicist at HHMAX-ENERGY, delivered a presentation titled “Development Progress of the HHMAX-901 Field-Reversed-Configuration Fusion Device.” He outlined the company's achievements in both physics and engineering, ensuring the scientific rigor and feasibility of the HHMAX-901's overall design. Zheng stated that the device's engineering design and construction are progressing steadily, with the validation of physical parameters for the formation zone already completed. Detailed design plans have been finalized for each engineering subsystem, with relevant components entering the manufacturing phase and supporting facilities undergoing renovation. Liang Shaoyong, Head of Diagnostics at Hanhai Energy, presented “High-Precision Measurement of Microsecond-Level Pulsed Magnetic Signals,” outlining the company's magnetic measurement system design and research into high-precision, high-response calibration testing technologies. This magnetic measurement system will provide robust technical support for the HHMAX-901 device's engineering commissioning, plasma experiments, and future fusion ignition.

    HHMAX-ENERGY is confident that the device will achieve its anticipated objectives upon completion, offering solid technical foundations for the commercialization of fusion energy.