Group 1 - The increasing prevalence of cardiovascular diseases and the growing demand for brain science exploration are driving the need for advanced detection methods, such as quantum precision measurement technology [1] - Traditional medical imaging techniques like CT and MRI can illuminate tissue structure but fail to observe tissue function, making precise localization and early screening of lesions challenging [1] - Existing methods like traditional electrocardiograms have low sensitivity and are limited by electrical signal interference, while CT and MRI have drawbacks such as radiation risk and high costs [1] Group 2 - Guoqi Sensor, a pioneer in quantum precision measurement, is responding to national strategic plans by developing miniaturized SERF atomic magnetometers in collaboration with various research institutions and companies [2] - The SERF atomic magnetometer system developed by Guoqi Sensor achieves a sensitivity of 10 fT/√Hz and has a probe size of only 3.8 cm, addressing the challenges of traditional heart magnetography [2] - The technology enables simultaneous collection of 512 magnetic field signals, enhancing detection efficiency and providing reliable support for scenarios like fetal magnetic monitoring and children's brain development assessment [2] Group 3 - Guoqi Sensor is actively building a quantum medical innovation ecosystem by collaborating with local governments and medical institutions, successfully delivering zero-magnetic medical devices to 26 hospitals across 7 provinces [3] - The zero-magnetic medical equipment has collected over 100,000 clinical data samples in 2024, showcasing its significance in reconstructing diagnostic logic [3] - The company aims to shift disease detection from passive treatment to proactive prevention through high-dimensional data collection and artificial intelligence algorithms, marking a new era of non-invasive and precise medical care [3]