Search for European Projects

5 European Projects Found

Searched on 125080 European Projects

 FINISHED 
How do naïve cells in a developing tissue know when to divide and when to stop dividing when the tissue reaches its final size? How do they acquire information about their position to generate morphological patterns? Morphogen gradients have been shown to control pattern formation and growth. While the mechanisms of patterning are starting to be understood, the mechanism of growth by morphogens is ...
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 2

 FINISHED 
We propose to solve the long-standing problem of coupling quantum states in atoms to solid-state quantum devices. The realization of such a quantum interface represents a major breakthrough for information science, as it enables the development of a powerful hybrid architecture, where long-lived states of atoms store quantum information that can be processed rapidly using superconducting quantum c ...
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 6

 FINISHED 

Quantum Integrated Light Matter Interface (QuILMI)

Start date: Oct 1, 2012, End date: Mar 31, 2016,

This project brings together an interdisciplinary team of young, ambitious and internationally recognized researchers. The aim of the proposed research is to create a highly integrated device, which permits to manipulate, store and control light on a single-photon level using tailored quantum matter. Specifically, we will implement a three-dimensional optical lattice on an atom chip together with ...
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 4

 FINISHED 
"The central goal of the ""COHERENCE"" network is the training of Early Stage Researchers (ESRs) and Experienced Researchers (ERs) to the highest level of international excellence within the rapidly growing field of electronically highly excited (Rydberg) gases and aggregates. The systems range from single atoms to large mesoscopic ensembles with full control over motional and internal degrees of ...
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 15

 FINISHED 

Correlated Multielectron Dynamics in Intense Light Fields (CORINF)

Start date: Apr 1, 2011, End date: Mar 31, 2015,

Application of intense light fields opens the opportunity to image structures and dynamics of individual molecules with the combination of sub-Angstrom spatial and attosecond temporal resolution. However, intense light fields inevitably excite complex dynamics. The success of imaging techniques depends on our understanding of these largely unknown dynamics, creating demand for the theory of comple ...
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