Qudit Quantum Technology
Quantum Information beyond zero and one
The research group led by Martin Ringbauer explores quantum information processing using high-dimensional quantum systems. By moving beyond the traditional binary principles of classical information, we aim to harness the full potential of quantum systems. Our work focuses on developing innovative approaches for building and utilizing quantum computers, enabling more efficient computations and unlocking practical applications in the near future.
Our research interests include:
- Qudit-based quantum information: study of high-dimensional Hilbert spaces and quantum phenomena to develop more efficient quantum computers by using multi-state logic.
- Quantum simulation: Simulation of physical systems that are not accessible to classical computers, for example in the field of high-energy physics.
- Quantum error correction: New approaches and methods for efficient quantum error correction as an important building block for practically relevant quantum computers
Martin Ringbauer
Assistant Professor of Experimental Physics
PhD 2016, University of Queensland, Australia
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Affiliations
Institute of Experimental Physics, University of Innsbruck
Martin Ringbauer is interested in the fundamentals of quantum physics and how fundamental phenomena such as superposition and entanglement can be harnessed to develop technology. He received an ERC Starting Grant for his research on quantum computers with multi-state logic and was awarded the Hans and Walter Thirring Prize of the Austrian Academy of Sciences. He is very enthusiastic about science communication and, as an OEAD Science Ambassador, is actively committed to making current research accessible to everyone.