Prof. Daniel Mittleman: A leading figure at Brown University, Mittleman’s research focuses on the various applications and fundamental principles of terahertz imaging and sensing. His pioneering work offers deep insights into this technology’s potential.
Dr. Mona Jarrahi: A professor at UCLA, Jarrahi has made substantial contributions in designing advanced terahertz devices and systems, combining terahertz technology with nano-scale plasmonics.
Prof. Masayoshi Tonouchi: Based at Osaka University, Tonouchi is known for “laser terahertz emission microscopy” and explores the interactions between terahertz waves and matter, fostering developments in terahertz spectroscopy and imaging.
Prof. Xi-Cheng Zhang: A prominent figure at the University of Rochester, Zhang’s work revolves around terahertz wave generation, detection, and applications, bridging the gap between fundamental research and real-world applications.
Dr. Joo-Hiuk Son: As a professor at the University of Seoul, Son’s pioneering work in biomedical applications of terahertz technology has opened up new avenues for non-invasive cancer diagnosis and treatments.
Prof. Emma MacPherson: Working at the University of Warwick, MacPherson’s contributions to terahertz imaging revolve around its applications in non-destructive evaluation, especially in art conservation and the aerospace sector.
Dr. Günter Sigl: A researcher at Helmholtz-Zentrum Dresden-Rossendorf, Sigl’s work focuses on the advancements in time-domain terahertz imaging systems and their applications in material characterization.
Prof. Ruxin Li: Operating out of the Shanghai Institute of Optics and Fine Mechanics, Li’s research has significantly advanced the field of terahertz-wave generation and its application in imaging.
Dr. Jerome Faist: Based at ETH Zurich, Faist is known for his role in developing quantum cascade lasers, which have been instrumental in terahertz imaging and spectroscopy.
Prof. Tadao Nagatsuma: A professor at Osaka University, Nagatsuma’s work emphasizes the integration of terahertz technology with communication systems, exploring the frontier of ultra-fast, high-resolution imaging.
