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Nanotechnology Now - Press Release: Taking 2D materials for a spin: Scientists at the University of Tsukuba and the Institute of High Pressure Physics fabricate a novel molybdenum disulfide transistor and create an image of the spins of the electrons passing through which may open the way for new spintronic compute

Nanotechnology Now - Press Release: Taking 2D materials for a spin: Scientists at the University of Tsukuba and the Institute of High Pressure Physics fabricate a novel molybdenum disulfide transistor and create an image of the spins of the electrons passing through which may open the way for new spintronic compute
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United statesNaoko yamashinaKazuhiro marumotoDivision of materials scienceInstitute of high pressure physicsInstrument at berkeley lab advanced light sourceWave incHome pressUniversity of tsukubaHigh pressure physicsMaterials scienceProfessor kazuhiro marumotoNanotechnology nowBerkeley labAdvanced light sourceஒன்றுபட்டது மாநிலங்களில்

Nanotechnology Now - Press Release: Electrons living on the edge: Researchers at the University of Tsukuba use theoretical calculations to predict the possibility of massless electrons in topological insulators excited with lasers, which may lead to faster and more efficient electronic devices

Nanotechnology Now Our NanoNews Digest Sponsors Home > Press > Electrons living on the edge: Researchers at the University of Tsukuba use theoretical calculations to predict the possibility of massless electrons in topological insulators excited with lasers, which may lead to faster and more efficient electronic devices Abstract: Scientists at the University of Tsukuba demonstrated the possibility of electrons moving as if they were massless when certain materials called topological insulators are irradiated with laser beams. This work may lead to a new class of highly efficient electronic devices and photonic crystals. Electrons living on the edge: Researchers at the University of Tsukuba use theoretical calculations to predict the possibility of massless electrons in topological insulators excited with lasers, which may lead to faster and more efficient electronic devices

Nordrhein westfalenNaoko yamashinaUniversity of bonnDegree capital corpWave incHome press electronsChip technologyUniversity of tsukubaKen ichi hinoNanotechnology nowReport fourth quarterConference callLaser cooling januaryனோற்ர்ேன் வெஸ்ட்ஃபாலன்நொகோ யமாஷீனபல்கலைக்கழகம் ஆஃப் பொன்