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000342576 005__ 20230827173355.0
000342576 0247_ $$2CORDIS$$aG:(EU-Grant)101087709$$d101087709
000342576 0247_ $$2CORDIS$$aG:(EU-Call)ERC-2022-COG$$dERC-2022-COG
000342576 0247_ $$2originalID$$acorda_____he::101087709
000342576 035__ $$aG:(EU-Grant)101087709
000342576 150__ $$aManipulating magnetic domains through femtosecond pulses of magnetic field$$y2024-03-01 - 2029-02-28
000342576 372__ $$aERC-2022-COG$$s2024-03-01$$t2029-02-28
000342576 450__ $$aFemtoMagnet$$wd$$y2024-03-01 - 2029-02-28
000342576 5101_ $$0I:(DE-588b)5098525-5$$2CORDIS$$aEuropean Union
000342576 680__ $$aWhile the electronic industry has successfully entered the nanoworld following Moore’s law, the speed of manipulating and storing data lags behind, creating the so-called ultrafast technology gap. Processors already have a clock speed of a few gigahertz, while the storage on a magnetic hard disk requires a few nanoseconds. This bottleneck can also be found in magnetic random access memory devices. 
The use of ultrafast pulses of light has demonstrated effectiveness in manipulating magnetic orders on very short time scales. However, the physical processes involved are still poorly understood, and such a control reaches the micrometer scale at best, effectively preventing their use for high-density data storage.
FemtoMagnet aims to develop an entirely new approach to manipulating magnetic domains based on the engineering of plasmonic nanodevices. For that, these devices will optically generate ultra-short, intense, and reversible pulses of magnetic field at the nanoscale, a challenge that no other technique can achieve so far. 
To meet its ambitious goals, my research program engineers innovative plasmonic nanostructures inversely-designed to tailor light-matter interactions at the nanoscale. Under the right illumination conditions, the electromagnetic fields generated by the nanostructure set the electrons in a metal (such as in a coil) in pseudo-continuous drift motion, in turn yielding the creation of a strong stationary magnetic field.
By specifically creating and manipulating ultrafast, strong, confined and reversible pulses of magnetic field in an all-optical fashion, my research program will enable the manipulation of magnetic domains at the nanoscale and over very short timescales (a few tens of femtoseconds), opening the way to applications in ultrafast data storage and data processing.
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000342576 909CO $$ooai:juser.fz-juelich.de:1011935
000342576 980__ $$aG
000342576 980__ $$aCORDIS
000342576 980__ $$aAUTHORITY