Alexander Rogge shared a link
2023-05-03 02:02:27
James Badham, University of California - Santa Barbara - Beyond Moore's Law: Innovations in solid-state physics include ultra-thin 2D materials and more:

https://phys.org/news/2023-05-law-solid-state-physics-ultra-thin-2d.html

#MooreLaw #FieldEffectTransistor #FET #ChargeBasedFieldEffectTransistor #TFET #SpinFET #Transistors #ElectronSpin #Spin #FloatingGate #FGFET #Tunneling #DataStorage #SolidState #Qubits #QuantumMechanics #MaterialsScience #QuantumPhysics #Physics
James Badham, University of California - Santa Barbara - Beyond Moore's Law: Innovations in solid-state physics include ultra-thin 2D materials and more: https://phys.org/news/2023-05-law-solid-state-physics-ultra-thin-2d.html #MooreLaw #FieldEffectTransistor #FET #ChargeBasedFieldEffectTransistor #TFET #SpinFET #Transistors #ElectronSpin #Spin #FloatingGate #FGFET #Tunneling #DataStorage #SolidState #Qubits #QuantumMechanics #MaterialsScience #QuantumPhysics #Physics
PHYS.ORG
Beyond Moore's Law: Innovations in solid-state physics include ultra-thin 2D materials and more
In the ceaseless pursuit of energy-efficient computing, new devices designed at UC Santa Barbara show promise for enhancements in information processing and data storage.
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