Speaker
Daniel Aziz
(Technische Universität Wien)
Description
We describe a concept for a quantum computer based on an abundant number of energy eigenstates. These states form Q-bits or, ad libitum, higher dimensional Q-Nits with N > 2, allowing gate operations according to the quantum computing requirements of DiVincenzo. This system with higher dimensional Q-Nits offers potential advantages over traditional Q-Bit-based quantum computing. It provides a larger state space for storing and processing information, which can reduce circuit complexity, simplify experimental setups, and enhance algorithm efficiency.
Author
Daniel Aziz
(Technische Universität Wien)
