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Ultrafast non-thermal and thermal switching in charge configuration memory devices based on 1T-TaS2

D. Mihailović, Damjan Svetin, Igor Vaskivskyi, Rok Venturini, Benjamin Lipovšek, Anže Mraz

2021Applied Physics Letters22 citationsDOI

Abstract

Charge configuration memory (CCM) device operation is based on the controllable reconfiguration of electronic domains in a charge-density-wave material. Since the dominant effect involves the manipulation of electrons rather than atoms, the devices can display sub-picosecond switching speed and ultralow, few femtojoule switching energy. The mechanisms involved in switching between domain states of different electrical resistances are highly non-trivial and involve trapping non-equilibrium charges within topologically protected domain states. Here, we discuss the underlying physics that are deemed essential for the operation of CCM devices, focusing on the unusual asymmetry between non-thermal “write” processes and thermal “erase” processes from the point of view of the mechanism in relation to the thermal dynamics.

Topics & Concepts

ThermalPicosecondCharge (physics)Ultrashort pulseElectronControl reconfigurationAsymmetryTrappingOptoelectronicsMaterials scienceSwitching timePhysicsComputer scienceOpticsQuantum mechanicsMeteorologyEmbedded systemEcologyLaserBiologyAdvanced Memory and Neural ComputingSemiconductor materials and devicesFerroelectric and Negative Capacitance Devices
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