Straintronics: a new trend in micro-and nanoelectronics and materials science
The term'straintronics' refers to a new research area in condensed matter physics, in which
strain engineering methods and strain-induced physical effects in solids are used to develop …
strain engineering methods and strain-induced physical effects in solids are used to develop …
Стрейнтроника—новое направление микро-и наноэлектроники и науки о материалах
АА Бухараев, АК Звездин, АП Пятаков… - Успехи физических …, 2018 - ufn.ru
Стрейнтроникой (straintronics) называют новое направление в физике
конденсированного состояния вещества, использующее методы деформационной …
конденсированного состояния вещества, использующее методы деформационной …
[HTML][HTML] Magnetic straintronics: Manipulating the magnetization of magnetostrictive nanomagnets with strain for energy-efficient applications
S Bandyopadhyay, J Atulasimha… - Applied Physics Reviews, 2021 - pubs.aip.org
The desire to perform information processing, computation, communication, signal
generation, and related tasks, while dissipating as little energy as possible, has inspired …
generation, and related tasks, while dissipating as little energy as possible, has inspired …
Experimental demonstration of complete 180 reversal of magnetization in isolated Co nanomagnets on a PMN–PT substrate with voltage generated strain
Rotating the magnetization of a shape anisotropic magnetostrictive nanomagnet with
voltage-generated stress/strain dissipates much less energy than most other magnetization …
voltage-generated stress/strain dissipates much less energy than most other magnetization …
[HTML][HTML] Giant voltage manipulation of MgO-based magnetic tunnel junctions via localized anisotropic strain: A potential pathway to ultra-energy-efficient memory …
Voltage control of magnetization via strain in piezoelectric/magnetostrictive systems is a
promising mechanism to implement energy-efficient straintronic memory devices. Here, we …
promising mechanism to implement energy-efficient straintronic memory devices. Here, we …
The modern problems of ultrafast magnetoacoustics
VS Vlasov, AV Golov, LN Kotov, VI Shcheglov… - Acoustical …, 2022 - Springer
A review of modern lines of research in the field of ultrafast magnetoacoustics is presented.
Effects of interaction of ultrashort (picosecond) acoustic pulses with a magnetic subsystem of …
Effects of interaction of ultrashort (picosecond) acoustic pulses with a magnetic subsystem of …
Single‐domain multiferroic array‐addressable terfenol‐d (smart) micromagnets for programmable single‐cell capture and release
Programming magnetic fields with microscale control can enable automation at the scale of
single cells≈ 10 µm. Most magnetic materials provide a consistent magnetic field over time …
single cells≈ 10 µm. Most magnetic materials provide a consistent magnetic field over time …
Reversible strain-induced magnetization switching in FeGa nanomagnets: Pathway to a rewritable, non-volatile, non-toggle, extremely low energy straintronic memory
We report reversible strain-induced magnetization switching between two stable/metastable
states in~ 300 nm sized FeGa nanomagnets delineated on a piezoelectric PMN-PT …
states in~ 300 nm sized FeGa nanomagnets delineated on a piezoelectric PMN-PT …
Full voltage manipulation of the resistance of a magnetic tunnel junction
One of the motivations for multiferroics research is to find an energy-efficient solution to
spintronic applications, such as the solely electrical control of magnetic tunnel junctions …
spintronic applications, such as the solely electrical control of magnetic tunnel junctions …
Magnetoelectric write and read operations in a stress-mediated multiferroic memory cell
A Klimov, N Tiercelin, Y Dusch, S Giordano… - Applied Physics …, 2017 - pubs.aip.org
Magnetic memory cells associated with the stress-mediated magnetoelectric effect promise
extremely low bit-writing energies. Most investigations have focused on the process of …
extremely low bit-writing energies. Most investigations have focused on the process of …