Quantum cosmology explored by experimental research on quantum many-body systems

Quantum dynamics group

The semiconductor industry that supports modern life is based on a variety of advanced technologies, including ultra-high quality crystal growth and nano-device fabrication. Taking advantage of this technology, we create devices using ultra-high quality semiconductors and novel functional materials. These devices are the stage on which we conduct experiments to explore the novel physics of solid-state particles and quasi-particles such as electrons, holes, excitons and nuclear spins, revealing the essence of quantum mechanics. Understanding the behavior of such particles informs the future technologies of our modern world, and also aids in explaining the fundamental physics of nature. In particular, in a semiconductor chip we are aiming at implementing toy models of “quantum cosmology”, i.e. cosmology on the Planck scale which dictated the states of the early universe occurring just after the Big Bang. By collaborating with researchers from a variety of fields, such as materials science, solid-state experiment and theory, quantum information, particle theory and cosmology, we are applying our research to a wide frontier of exciting novel questions.


Fig 1. (Left) Femto-second laser used for optical experiments (Right) Dilution refrigerator which provides 10 milli-kelvin temperature

Fig 2. (Left) Optical microscope image of a nano device and semiconductor chip (Right) Scanning electron microscopy image of a nano device.
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