
Kashiwa , Japan

Kashiwa , Japan

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A Nobel Laureate in Physics (2015) for the discovery of neutrino oscillations, which proved that neutrinos have mass. He... View More
A Nobel Laureate in Physics (2015) for the discovery of neutrino oscillations, which proved that neutrinos have mass. He is a professor and the director of the Institute for Cosmic Ray Research at UTokyo, leading global efforts in particle astrophysics. View Less
Awarded the Nobel Prize in Physiology or Medicine (2015) for his discovery of avermectins, derivatives of which have rad... View More
Awarded the Nobel Prize in Physiology or Medicine (2015) for his discovery of avermectins, derivatives of which have radically lowered the incidence of River Blindness and Lymphatic Filariasis. His work is a pinnacle of pharmaceutical research from microbial sources. View Less
A Nobel Laureate in Physics (2002) for pioneering contributions to astrophysics, in particular for the detection of cosm... View More
A Nobel Laureate in Physics (2002) for pioneering contributions to astrophysics, in particular for the detection of cosmic neutrinos. His work laid the foundation for the field of neutrino astronomy, inspiring a generation of physicists. View Less
A Nobel Laureate in Physics (2002) for pioneering contributions to astrophysics, in particular for the detection of cosm... View More
A Nobel Laureate in Physics (2002) for pioneering contributions to astrophysics, in particular for the detection of cosmic neutrinos. His work laid the foundation for the field of neutrino astronomy, inspiring a generation of physicists. View Less
A renowned author who won the Nobel Prize in Literature in 1994. His powerful and emotionally charged novels often draw ... View More
A renowned author who won the Nobel Prize in Literature in 1994. His powerful and emotionally charged novels often draw from his personal experiences with his disabled son and explore political and social issues in contemporary Japan. View Less
Awarded the Nobel Prize in Physiology or Medicine (2012) for the discovery that mature cells can be reprogrammed to beco... View More
Awarded the Nobel Prize in Physiology or Medicine (2012) for the discovery that mature cells can be reprogrammed to become pluripotent stem cells (iPS cells). This revolutionary work has opened new avenues in regenerative medicine and drug development. View Less
Received the Nobel Prize in Physics (1973) for his experimental discovery of the phenomenon of electron tunneling in sem... View More
Received the Nobel Prize in Physics (1973) for his experimental discovery of the phenomenon of electron tunneling in semiconductors. This fundamental discovery in quantum mechanics has had profound implications for the development of electronic devices. View Less
The Kashiwa Campus is a modern, purpose-built facility spread over a spacious area, designed to foster both intensive research and a high quality of student life. Its infrastructure includes multiple interconnected research buildings housing advanced laboratories, high-performance computing facilities, and specialized centers like the Radioisotope Center. The campus is meticulously planned with extensive green spaces, pedestrian-friendly walkways, and a central "Commons" area that contains the library, cafeteria, and student support services. It is supported by a robust IT network, reliable utility systems, and dedicated facilities for large-scale experimental equipment, providing a comprehensive and supportive environment for its academic community.
Student life on the Kashiwa Campus is dynamic and diverse, enriched by its interdisciplinary and international community. Students can participate in a wide array of extracurricular activities, including over 50 student-led clubs and circles ranging from sports and cultural arts to academic societies. The campus regularly hosts seminars, international symposia, and social events that encourage networking and cross-cultural exchange. With modern common spaces, cafeterias serving various cuisines, and seasonal events like the campus festival, students have ample opportunities to build a strong sense of community, forge lasting friendships, and achieve a fulfilling balance between their rigorous academic pursuits and personal interests.


The Career Support Office on the Kashiwa Campus, particularly geared towards students in science and technology fields, provides extensive and personalized career guidance to prepare students for successful professional paths. This support includes one-on-one career counseling, workshops on resume writing and interview skills, and networking sessions with alumni and industry professionals. The office organizes major corporate information sessions and internship fairs specifically on campus, facilitating direct contact between students and potential employers from leading Japanese and global companies. This comprehensive approach ensures that students are well-equipped to navigate the job market and secure positions in academia, industry, government, and entrepreneurship that align with their skills and aspirations.
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The University of Tokyo's undergraduate colleges are primarily on the Hongo and Komaba Campuses. Students typically enter the Kashiwa Campus for graduate studies after completing an undergraduate degree.
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Researchers at the Kashiwa Campus have been at the forefront of numerous groundbreaking achievements. This includes the Nobel Prize in Physics awarded to Professor Takaaki Kajita for the discovery of neutrino oscillations at the Super-Kamiokande detector, a project managed from this campus. Other significant accomplishments include leading roles in international projects like the Belle experiment for particle physics, pioneering research in planetary science with the Hayabusa2 asteroid probe, and developing innovative materials and technologies for sustainable energy and environmental solutions that have global impact.


UTokyo established a major research center with industry partners to lead the development of 6G and future communication technologies, solidifying its role at the forefront of global innovation.
Akira Yoshino was awarded the Nobel Prize in Chemistry for his role in developing the lithium-ion battery, a revolutionary technology that enabled the wireless electronics revolution.
Takaaki Kajita was awarded the Nobel Prize in Physics for the key discovery that neutrinos change identities, requiring them to have mass. This finding changed the fundamental understanding of particle physics.
Masatoshi Koshiba was awarded the Nobel Prize for his detection of cosmic neutrinos. His work at the Kamiokande detector confirmed theories of solar neutrino production and supernova explosions.
Hideki Shirakawa, along with others, was awarded the Nobel Prize in Chemistry for the discovery that plastics can be made electrically conductive, opening the door to plastic LEDs and solar cells.
The Kashiwa Campus is a powerhouse of innovation, focusing on interdisciplinary research that addresses future societal needs. Key areas of development include sustainability science, where researchers create new materials for energy storage and carbon capture; frontier physics, with projects probing dark matter and gravitational waves; and advanced life sciences, including systems biology and environmental genomics. The campus actively promotes industry-academia collaborations to translate fundamental research into practical technologies and solutions, fostering a vibrant ecosystem of innovation and entrepreneurship.
Researchers created a highly sensitive quantum sensor using diamond nitrogen-vacancy centers. It can measure minute magnetic fields and temperatures at the nanoscale, with applications in materials science and biology.
Development of an ultra-thin, flexible solar cell with a conversion efficiency record. This technology holds promise for lightweight, portable power sources and integration into buildings and vehicles.
UTokyo researchers demonstrated a prototype rechargeable battery using calcium, which is more abundant and cheaper than lithium. This has the potential to pave the way for next-generation, sustainable energy storage systems.
A groundbreaking method for creating strong, heat-resistant, and biodegradable plastics from plant-based materials. This invention offers a promising sustainable alternative to conventional petroleum-based plastics.
A novel fluorescent dye developed at UTokyo that can selectively stain and visualize cell membranes. It has become an essential tool in biological and medical research for observing dynamic cellular processes in real-time.
Developed by Prof. Hideo Hosono, this transparent semiconductor material revolutionized display technology. It enables high-resolution, low-power-consumption screens used in smartphones, tablets, and large-screen televisions worldwide.

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