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Sub-nanosecond heat-based logic, writing and reset in an antiferromagnetic magnetoresistive memory
by
Campion, R. P.
, Surýnek, M.
, Nádvorník, L.
, Farkaš, A.
, Kubaščík, P.
, Krizek, F.
, Ostatnický, T.
, Zubáč, J.
, Olejník, K.
, Novák, V.
, Jungwirth, T.
, Němec, P.
in
Analog antiferromagnetic memory device
/ Brain research
/ Data processing
/ Engineering
/ Heat
/ Lasers
/ Logic
/ Magnetic fields
/ Memory
/ Microwaves
/ RF and Optical Engineering
/ Short-term to long-term memory transfer
/ Temperature
/ Thermal logic
/ Transistors
/ Ultrafast optical switching
2025
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Sub-nanosecond heat-based logic, writing and reset in an antiferromagnetic magnetoresistive memory
by
Campion, R. P.
, Surýnek, M.
, Nádvorník, L.
, Farkaš, A.
, Kubaščík, P.
, Krizek, F.
, Ostatnický, T.
, Zubáč, J.
, Olejník, K.
, Novák, V.
, Jungwirth, T.
, Němec, P.
in
Analog antiferromagnetic memory device
/ Brain research
/ Data processing
/ Engineering
/ Heat
/ Lasers
/ Logic
/ Magnetic fields
/ Memory
/ Microwaves
/ RF and Optical Engineering
/ Short-term to long-term memory transfer
/ Temperature
/ Thermal logic
/ Transistors
/ Ultrafast optical switching
2025
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Sub-nanosecond heat-based logic, writing and reset in an antiferromagnetic magnetoresistive memory
by
Campion, R. P.
, Surýnek, M.
, Nádvorník, L.
, Farkaš, A.
, Kubaščík, P.
, Krizek, F.
, Ostatnický, T.
, Zubáč, J.
, Olejník, K.
, Novák, V.
, Jungwirth, T.
, Němec, P.
in
Analog antiferromagnetic memory device
/ Brain research
/ Data processing
/ Engineering
/ Heat
/ Lasers
/ Logic
/ Magnetic fields
/ Memory
/ Microwaves
/ RF and Optical Engineering
/ Short-term to long-term memory transfer
/ Temperature
/ Thermal logic
/ Transistors
/ Ultrafast optical switching
2025
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Sub-nanosecond heat-based logic, writing and reset in an antiferromagnetic magnetoresistive memory
Journal Article
Sub-nanosecond heat-based logic, writing and reset in an antiferromagnetic magnetoresistive memory
2025
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Overview
Thermal logic aims to create thermal counterparts to electronic circuits. In this work, we investigate experimentally the response of an analog memory device based on a thin film of an antiferromagnetic metal CuMnAs to bursts of heat pulses generated by the absorption of femtosecond laser pulses at room ambient temperature. When a threshold temperature in the heat-based short-term memory of the device is exceeded, the output of the in-memory logic operations is transferred within the same device to a long-term memory, where it can be retrieved at macroscopic times. The long-term memory is based on magnetoresistive switching from a reference low-resistive uniform magnetic state to high-resistive metastable nanofragmented magnetic states. The in-memory heat-based logic operations and the conversion of the outputs into the electrically-readable long-term magnetoresistive memory were performed at sub-nanosecond time scales, making them compatible with the GHz frequencies of standard electronics. Finally, we demonstrate the possibility of rapidly resetting the long-term memory to the reference low-resistive state by heat pulses.
Publisher
Springer Nature Singapore,Springer Nature B.V,SpringerOpen
Subject
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