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DTSTART;TZID=Europe/Berlin:20250710T121500
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DTSTAMP:20260504T031039
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UID:10000032-1752149700-1752149700@www.trr352.de
SUMMARY:Filtered finite difference methods for semiclassical nonlinear Schrödinger equations
DESCRIPTION:
URL:https://www.trr352.de/event/filtered-finite-difference-methods-for-semiclassical-nonlinear-schrodinger-equations/
LOCATION:Room 03.06.011\, Boltzmannstr. 3\, Garching Forschungszentrum\, 85748\, Germany
CATEGORIES:Talks
ORGANIZER;CN="Prof. Dr. Christian Lubich":MAILTO:lubich@na.uni-tuebingen.de
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DTSTART;TZID=Europe/Berlin:20250716T183000
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DTSTAMP:20260504T031039
CREATED:20250707T132300Z
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UID:10000101-1752690600-1752690600@www.trr352.de
SUMMARY:How Does a Quantum Computer Work?
DESCRIPTION:Quantum mechanics\, now about a century old\, is a very successful physical theory of matter on a small scale. From its first description until today\, it has surprised scientists and laypersons alike by the strange behaviour it attributes to particles\, atoms\, and molecules. This behaviour can be characterized by the keywords Uncertainty\, Superposition\, and Entanglement. \nIt took about sixty years before it was realized that these three characteristics do not just express a certain vagueness and strangeness of matter on a small scale but can actually be used to our advantage. In 1994 Peter Shor made this idea concrete by devising an algorithm that would enable large arrays of quantum systems to perform specific calculations (factoring large integers)\, which are impossible to do in practice on any classical device. With this algorithm\, present-day cryptographic schemes can be broken\, provided such “quantum computers” can be made to work. \nStarting from a discussion of the “two-slit experiment”\, we sketch the working of Shor’s algorithm and discuss the possibilities of future quantum computers.
URL:https://www.trr352.de/event/how-does-a-quantum-computer-work/
LOCATION:Room 0503.EG.360 (Theodor-Fischer-Hörsaal)\, Arcisstr. 21\, München\, 80333\, Germany
CATEGORIES:Talks
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