Quantum Leap: How Terahertz Pulses Are Revolutionizing Semiconductor Switching
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Extremely thin materials consisting of just a few atomic layers promise applications for electronics and quantum technologies. Researchers have dramatically sped up the switching between excitons and trions in two-dimensional semiconductors using terahertz pulses, offering new possibilities for quantum material applications. This breakthrough, achieved by an international team including scientists from TU Dresden and HZDR, […]
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Extremely thin materials consisting of just a few atomic layers promise applications for electronics and quantum technologies. Researchers have dramatically sped up the switching between excitons and trions in two-dimensional semiconductors using terahertz pulses, offering new possibilities for quantum material applications. This breakthrough, achieved by an international team including scientists from TU Dresden and HZDR,…
Extremely thin materials consisting of just a few atomic layers promise applications for electronics and quantum technologies. Researchers have dramatically sped up the switching between excitons and trions in two-dimensional semiconductors using terahertz pulses, offering new possibilities for quantum material applications. This breakthrough, achieved by an international team including scientists from TU Dresden and HZDR,…