Quantum Computing: from foundations to state-of-the-art of the hardware platforms
This is the first of two webinars which target anyone interested in learning about quantum computing: from foundations and hardware platforms, to quantum computing applications. Whether you are an business executive, a researcher or an IT professional, follow us in this journey through quantum computing.
Materials produced for the biannual Master programme Didactic Innovation in Physics and Guidance (IDIFO): on teaching/learning proposals for Quantum Physics in secondary school.
Quantencomputing Kompakt - Spukhafte Fernwirkung und Teleportation endlich verständlich
The book illustrates 1.) (Idealized) Experiments to prove entanglement and "spooky action at a distance";2. ) The quantum algorithm for teleportation.It uses a new method for illustrating the algorithm not in 8-dimensionals space, but using the 8 corners of a cube, which. It does not require more than basic knowledge in mathematics, and does not require knowlege in physics.
Molecule Interferometry in a Simulated Interactive Research Experiment
Simulated Interactive Research Experiment
This site hosts 2 Simulated Interactive Research Experiments: a) Molecule diffraction at a nanomechanical grating, b) Molecule interferometry in a KDTL/LUMI interferometer. Both are currently unique systems, built and operated by the Quantum Nanophysics Group at the University of Vienna to demonstrate and exploit the wave-particle duality of complex things. To make these experiments available to the widest possible audience, these experiments were reproduced in a photo-realistic 3D virtual version, which can be manipulated in the same ways that you would manipulate the real-world experiment. All data and measurements that one can do simulate very closely real-world data, based on physically realistic models.
University of Vienna, Quantum Nanophysics Group