Center for Integrated Nanostructure Physics

The supercomputer performance for the last decades has been saturated and often limited by the dissipative fermionic carrier (electron and hole) transport up to the individual transistor level. The intensive research focus was employed for the last few decades towards developing dissipationless transport for the next-generation quantum computers.

We propose a new carrier transport platform using fundamental Boson particles that can be created from Coulomb interactions between electron-hole pair (coulombic Boson) in two-dimensional (2D) heterostructures. Atomically thin 2D metallic, semiconducting, and insulating materials such as graphene, TMDs, h-BN were used as the building blocks for the 2D-interface architectures. Strong Coulomb force due to quantum confinement effect between bosonic electron-hole pairs can be utilized to achieve high-performance solid-state electronic devices at room temperature.