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Finland s quantum tech leap: €13M investment in national flagship project

Finland is making a bold move in the realm of quantum technology with the Research Council of Finland announcing a significant €13 million funding boost for the Finnish Quantum Flagship (FQF). This substantial investment marks the beginning of an ambitious eight-year project, set to commence in March 2024, with the first five years seeing this initial funding bolstered by equal contributions from member organizations.

United statesEteläuomen läiPeter liljerothAalto universityTampere universityUniversity of helsinkiCentre for scienceUniversity of ouluUniversity of jyvTechnical research centre of finlandResearch centreProfessor peter liljerothNordic quantum

Research group detects a quantum entanglement wave for the first time using real-space measurements

A team from Aalto University and the University of Jyväskylä have created an artificial quantum magnet featuring a quasiparticle made of entangled electrons, the triplon

Peter liljerothJose ladoAalto universityAcademy research fellow robert drostPhysical review lettersProfessor peter liljerothAtomic scaleAssistant professor jose ladoCorrelated quantum materials

Research group detects a quantum entanglement wave for the first time using real-space measurements

Research group detects a quantum entanglement wave for the first time using real-space measurements
sciencedaily.com - get the latest breaking news, showbiz & celebrity photos, sport news & rumours, viral videos and top stories from sciencedaily.com Daily Mail and Mail on Sunday newspapers.

Peter liljerothJose ladoAcademy research fellow robert drostAalto universityPhysical review lettersProfessor peter liljerothAtomic scaleAssistant professor jose ladoCorrelated quantum materials

Research group detects a quantum entanglement wave for the first time using real-space measurements

Research group detects a quantum entanglement wave for the first time using real-space measurements
phys.org - get the latest breaking news, showbiz & celebrity photos, sport news & rumours, viral videos and top stories from phys.org Daily Mail and Mail on Sunday newspapers.

Jose ladoRobert drostPeter liljerothJose lado aalto universityAcademy research fellow robert drostAalto universityPhysical reviewProfessor peter liljerothAtomic scaleAssistant professor jose ladoCorrelated quantum materialsReal space imagingTriplon excitationsEngineered quantum magnetsPhysical review letters

Researchers discover new type of atomically thin conductive carbon material and it s not graphene -- Science & Technology -- Sott net

© University of Marburg, Aalto University Structure of the new carbon network. The upper part shows schematically the linking of the carbon atoms, forming squares, hexagons, and octagons. The lower part is an image of the network, obtained with high-resolution microscopy. Carbon exists in various forms. In addition to diamond and graphite, there are recently discovered forms with astonishing properties. For example graphene, with a thickness of just one atomic layer, is the thinnest known material, and its unusual properties make it an extremely exciting candidate for applications like future electronics and high-tech engineering. In graphene, each carbon atom is linked to three neighbors, forming hexagons arranged in a honeycomb network. Theoretical studies have shown that carbon atoms can also arrange in other flat network patterns, while still binding to three neighbors, but none of these predicted networks had been realized until now.

Michael gottfriedPeter liljerothAdam fosterLinghao yanUniversity of marburgAalto university structureAalto universityQitang fanProfessor peter liljerothProfessor adam fosterமைக்கேல் காட்‌ஃப்ரீட்பண்படாமனித இயல்பு வளர்ப்புபல்கலைக்கழகம் ஆஃப் மார்பர்க்ஆல்டோ பல்கலைக்கழகம்ப்ரொஃபெஸர் ஆடம் வளர்ப்பு