2014.06.16. 1 Nanophysics, nanotechnology and materials science Nanotechnology exploits material properties which are markedly different from the behavior observed on macroscopic as well as on molecular scales. In the 10-100 nm submicron regime new phenomena emerge opening new routes to the design and fabrication of devices with novel functionalities as well as to the engineering of individual material parameters.
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2014.06.16.
1
Nanophysics, nanotechnology and
materials science
Nanotechnology exploits material propertieswhich are markedly different from the behaviorobserved on macroscopic as well as on molecularscales.
In the 10-100 nm submicron regime newphenomena emerge opening new routes to thedesign and fabrication of devices with novelfunctionalities as well as to the engineering ofindividual material parameters.
2014.06.16.
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Excellent Science
Horizon 2020
Industrial Leadership
Societal Challenges
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Excellent ScienceEuropean Research Council
Future & Emerging Technologies
Horizon 2020
Ongoing ERC projects in the field of
quantum-electronics and spin-dynamics:
Cooper pairs as a source of entanglement(CooPerEnt: 2011-2016)
Spin dynamics and transport at the quantumedge in low dimensional nanomaterials(SYLO: 2010-2015)
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Cooper pairs as a source of entanglement (CooPerEnt: 2011-2016)
Entanglement and non-localityare spectacular fundamentals ofquantum mechanics and basicresources of future quantum-computation algorithms.
Nature (2009) doi:10.1038/nature08432
Szabolcs Csonka
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Cooper pairs as a source of entanglement (CooPerEnt: 2011-2016)
In order to preserve quantum coherence the thermal
fluctuation has to be suppressed, which requires low
temperature environment. Our laboratory is equipped with
several cryogenic equipments to allow transport
measurements in the temperature range of 300K-18mK.
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Spin dynamics and transport at the quantum edge in low dimensional nanomaterials(SYLO: 2010-2015)
A promising route to maintainthe exponential growth capabilityof the information technology isto turn the electron spins asinformation carriers rather thantheir charge.
Nature Scientific Reports (2014)doi:10.1038/srep03233Ferenc Simon
István KézsmárkiMagneto-optical Spectroscopy2014-2019
Robert GyurcsányiChemical Nanosensors2013-2018
Gábor TakácsStatistical Field Theory
2012-2017
Gergely ZarándExotic Quantum Phase2011-2016
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Magneto-optical Spectroscopy (2014-2019)
Nature Physics (2012)doi:10.1038/NPHYS2387
István Kézsmárki
Smart materials, like multiferroics,magnetoelectric metamaterials andmagnetic nanoparticles — open newhorizons in photonics, optical bio-sensing and optical diagnostics.
Smart materials, like multiferroics,magnetoelectric metamaterials andmagnetic nanoparticles — open newhorizons in photonics, optical bio-sensing and optical diagnostics.
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Chemical Nanosensors (2013-2018)
Active nanostructure materials:
- potentiometric sensors, based on solidstate ion channel
- individual biological ion channels in a solid state environment
- fabrication of thin polymer films with a surface imprint