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Antimatter from laser pincers

Antimatter from laser pincers
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United statesSchleswig holsteinToma toncianAlexey arefievIon beam centerMagnetic field laboratory dresdenHelmholtz institute in jenaHelmholtz associationEuropean unionInstitute of radiation physicsLight infrastructure nuclear physicsUniversity of california at san diegoCommunications physicsHelmholtz zentrum dresden rossendorfExtreme light infrastructure nuclear physicsHelmholtz institute

The sun s clock

The sun s clock
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Schleswig holsteinFrank stefaniIon beam centerHelmholtz associationMagnetic field laboratory dresdenInstitute of fluid dynamicsInstitute of continuous media mechanics in permFluid dynamicsHelmholtz zentrum dresden rossendorfContinuous media mechanicsSolar physicsSuess de vriesMedia relationsHigh magnetic field laboratory dresdenHigh power radiationஸ்சிலேசுவிக் ஹோல்ஸ்டீன்

Electrons riding a double wave

Credit: Arie Irman Since they are far more compact than today s accelerators, which can be kilometers long, plasma accelerators are considered as a promising technology for the future. An international research group has now made significant progress in the further development of this approach: With two complementary experiments at the Helmholtz-Zentrum Dresden-Rossendorf (HZDR) and at the Ludwig-Maximilians-Universität Munich (LMU), the team was able to combine two different plasma technologies for the first time and build a novel hybrid accelerator. The concept could advance accelerator development and, in the long term, become the basis of highly brilliant X-ray sources for research and medicine, as the experts describe in the journal

United kingdomSchleswig holsteinJp couperus cabadaThomas kurzThomas heinemannIon beam centerNature communicationsHelmholtz associationMagnetic field laboratory dresdenInstitute of radiation physicsUniversity of strathclydeHelmholtz zentrum dresden rossendorfArie irmanRadiation physicsMedia relationsHigh magnetic field laboratory dresden

Great potential for the tiniest structures

E-Mail IMAGE: The silicate framework of a diatom does not conduct electricity. For a scanning electron microscope image it would therefore have to be coated, which can result in details of the. view more Credit: HZDR A finely focused ion beam (FIB) is a very useful tool in nanotechnology and analytics. Until now, scientists have mainly used FIB technology to prepare samples for certain microscopic techniques, such as troubleshooting in the semiconductor industry. But FIBs can do much more. The EU funded COST network project Focused Ion Technology for Nanomaterials - FIT4NANO , initiated by the Helmholtz-Zentrum Dresden-Rossendorf (HZDR), aims to bring together researchers and companies from all over Europe to jointly develop the technology and open up new applications.

Schleswig holsteinGregor hlawacekGregor hlawacerkSimon schmittMaterials researchIon beam centerIon technology for nanomaterialsInstitute of ion beam physicsHelmholtz associationMagnetic field laboratory dresdenLion technologyHelmholtz zentrum dresden rossendorfIon beam physicsEuropean cooperationInclusiveness targeted countriesHigh magnetic field laboratory dresden

Solstice | EurekAlert! Science News

Credit: HZDR / Blaurock Reliable and economical systems for storing large amounts of energy are needed for industrial nations such as Germany to succeed in making strides toward a regenerative energy supply. An international team led by Tom Weier and Norbert Weber from the Institute of Fluid Dynamics at the Helmholtz-Zentrum Dresden-Rossendorf (HZDR) aims to bring such applications to a level in which they are ready for use. The SOLSTICE project strives to develop energy storage systems based on liquid sodium and zinc from January 2021 onwards. The European Union is funding the project with eight million Euros through the Horizon 2020 program.

Schleswig holsteinTom weierNorbert weberIon beam centerEuropean unionHelmholtz associationMagnetic field laboratory dresdenInstitute of fluid dynamicsMagnetohydrodynamics departmentFluid dynamicsHelmholtz zentrum dresden rossendorfMedia relationsHigh magnetic field laboratory dresdenHigh power radiationஸ்சிலேசுவிக் ஹோல்ஸ்டீன்நோர்பர்ட் வெபர்