Core Insights - Chinese scientists have achieved a breakthrough in optical communication and 6G technology by realizing the cross-network integration of fiber optic and wireless communication systems, setting a new record for data transmission rates with the development of the "fiber-optic-wireless integrated communication system" [1][2][3] Group 1: Technological Advancements - The new system developed supports dual-mode transmission for fiber optic and wireless communication, significantly enhancing anti-interference capabilities [3][6] - The system utilizes integrated optical solutions to create ultra-wideband integrated photonic devices operating above 250GHz, achieving a single-channel transmission rate of 512Gbps for fiber optic communication and 400Gbps for wireless communication [4][6] Group 2: Application Potential - The system has demonstrated the capability to simulate large-scale user access scenarios for 6G, successfully conducting a multi-channel real-time 8K video access demonstration with 86 channels, increasing transmission bandwidth by over 10 times compared to current 5G standards [3][6] - The research lays a foundation for the next generation of ultra-wideband high-speed fiber-optic-wireless integrated communication, with significant application potential in 6G base stations and wireless data centers [3][6]

Group 1 - Chinese scientists have achieved a breakthrough in optical communication and 6G, realizing the integration of fiber and wireless communication systems, setting a new record for data transmission rates [1][2] - The new system developed can transmit optical communication signals at 512 Gbps and wireless communication signals at 400 Gbps, utilizing over 250 GHz bandwidth [2][3] - The system enhances anti-interference capabilities and supports dual-mode transmission, significantly improving bandwidth for applications such as 6G base stations and wireless data centers [3][4] Group 2 - The research team includes Beijing University, Pengcheng Laboratory, Shanghai University of Science and Technology, and the National Information Optoelectronics Innovation Center, showcasing collaboration in advancing communication technology [2] - The system demonstrated the capability to support 86 channels for real-time 8K video access, achieving over ten times the bandwidth of current 5G standards [3] - The work is considered a significant contribution to the integration of optical and terahertz communication systems, laying the groundwork for future ultra-broadband communication technologies [4]

Core Insights - Chinese scientists have achieved a breakthrough in optical communication and 6G technology by realizing the first cross-network integration between fiber optic and wireless communication systems, with a newly developed "fiber-optic-wireless integrated communication system" setting a new record for data transmission rates [1][2] Group 1: Technological Advancements - The new system supports dual-mode transmission for both fiber optic and wireless communication, significantly enhancing anti-interference capabilities [2] - The system has achieved a single-channel transmission rate of 512 Gbps for fiber optic communication and 400 Gbps for wireless communication [1] - The development includes ultra-wideband integrated photonic devices operating above 250 GHz, addressing the "bandwidth gap" between fiber optic and wireless communication [1] Group 2: Application Potential - The system has demonstrated the capability to support large-scale user access scenarios for 6G, successfully simulating 86 channels for real-time 8K video access, with a transmission bandwidth exceeding current 5G standards by more than ten times [2] - The new system is expected to have significant application potential in 6G base stations and wireless data centers, laying a research foundation for next-generation ultra-wideband high-speed fiber-optic-wireless integrated communication [2]