principles, and further developing them into innovative fields in electrical engineering, biomedical engineering, and photonics. His pioneering new engineering and scientific fields include nanoutrasonics for semiconductor detection, femtosecond terahertz acoustics, terahertz wave fibers and systems, harmonic generation microscopy, microwave virus resonance, and nonlinear mesoscopy. The elite talents nurtured by Professor Sun taught at prestigious institutions worldwide, including the University of Macau, Tsukuba University in Japan, the University of Virginia in the United States, Nanyang Technological University in Singapore, Lund University in Sweden, Vellore Institute of Technology in India, the Department of Physics and the Department of Electrical Engineering at National Taiwan University, the Institute of Physics and the Institute of Atomic and Molecular Sciences at Academia Sinica, National Yang Ming Chiao Tung University, National Cheng Kung University, National Central University, and National Tsing Hua University, spreading his critical experimental training and disruptive engineering thinking.In the field of THz photonics and optical communications, Professor Sun has developed telecommunication photodetectors with record speed (over 570 GHz bandwidth) and bandwidthpower product (5700 GHz-V). To address the loss limitations of sub-millimeter waves on traditional metal waveguides, he began publishing a series of world-record efficiency PhotonicTransmitters since 2002, and was featured as a cover story in IEEE Photonics Technology Letters. He subsequently published the first-generation sub-wavelength THz fibers (dielectric waveguides) in 2006 (with 396 citations according to Google), the second-generation THz photonic crystal fibers in 2008 (with 211 citations according to Google), and the third-generation THz Pipe fibers in 2009 (with 181 citations according to Google), thereby pioneering the new field of THz dielectric fiber and fiberbased systems. Professor Sun%u2019s research in THz photonics and ultrahigh-speed telecommunication devices has been highlighted twice by Nature Photonics (he has been highlighted four times by this journal). Due to his outstanding research, Professor Sun is a frequent invited speaker at academic conferences in the THz field. At the most important IRMMW-THz conference (a flagship conference organized by IEEE), he served as a Keynote Speaker at the 2011 conference in the United States and as a Plenary Speaker at the 2013 conference in Germany.Since 2003, Professor Sun has served as the chief investigator of the National Nano Program for ten consecutive years, developing nanoultrasonic imaging technology for nondestructive observation of semiconductor three-dimensional structures with nanometer resolution, and successfully applying it to atomic-level observation of dynamic processes such as photoelectrochemical water splitting. He has also led two phases of a 14-year National Health Research Institutes Excellence Innovation Research Program, successfully bringing the developed harmonic generation microscopy technique into clinical use, and demonstrating it to be the highest resolution, most accurate non-invasive technology for in vivo pathology diagnosis in dermatology. Due to his exceptional leadership in research teams, Professor Sun was tasked by President Si-Chen Lee to establish the Molecular Imaging Center during the second phase %u7b2c%u4e09%u5341%u4e00%u5c46%u6771%u5143%u734e%uff0e%u79d1%u6280%u985e%u734e%u96fb%u6a5f / %u8cc7%u8a0a / %u901a%u8a0a%u79d1%u6280