Electrons inside crystals interact closely with phonons, defined as the discrete unit of crystal vibrations. The electron–phonon coupling strength is an important fundamental physical quantity in ...
A Chinese-led research team has generated powerful electron beams with unprecedented efficiency, a scientific breakthrough that could rewrite Albert Einstein’s Nobel Prize winning theory, according to ...
When an electronic system is subjected to a sufficiently strong magnetic field that the cyclotron energy is much larger than the Fermi energy, the system enters the extreme quantum limit (EQL) and ...
A Chinese-led research team has generated powerful electron beams with unprecedented efficiency, a scientific breakthrough that could rewrite Albert Einstein's Nobel Prize winning theory, according to ...
Usually, microelectronic devices are made of silicon or similar semiconductors. Recently, the electronic properties of metal oxides have become quite interesting. These materials are more complex, yet ...
Usually, microelectronic devices are made of silicon or similar semiconductors. Recently, the electronic properties of metal oxides have become quite interesting. These materials are more complex, yet ...
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Advances in fine-tuning electron behavior in quantum materials could fast-track next generation of tech
Physicists at Loughborough University have made an exciting breakthrough in understanding how to fine-tune the behavior of electrons in quantum materials poised to drive the next generation of ...
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