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NanoQuIS explores quantum information and simulation using photonic crystals to trap atoms and facilitate interactions. The project aims to design structures for quantum computing applications, focusing on theoretical models and collaborations with experimentalists for practical implementations.
The growth of classical computational power supported by continued size reduction is expected to find its limit around 2019, when devices will probe the atomic scale.
Fortunately, this limit represents an opportunity as systems are ruled by quantum mechanics that may lead to more efficient computation techniques.
Many systems have been proposed as candidates to implement quantum computers: trapped ions or cavity and circuit QED,...
However, still none of them has emerged as a definite full-fledg…
MAX-PLANCK-GESELLSCHAFT ZUR FORDERUNG DER WISSENSCHAFTEN EV
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