The ability to control magnetism in sub-picosecond timescales using laser pulses has potential applications in fast magnetic devices. It has been demonstrated that a single femto-second laser pulse can reverse -The magnetization of a film within a few picoseconds [1], a phenomenon called as all-optical switching (AOS). However, this phenomenon thus far has been observed only in ferrimagnetic GdFeCo films. On -The o-Ther hand, ferromagnetic films, which are of greater interest than ferrimagnets in many technological applications, need multiple laser pulses for magnetization reversal [2], making -The overall effect slow and energy inefficient. Fast, singleshot switching of a ferromagnet can open up new avenues for spintronic devices that oper...
Using the time-resolved magneto-optical Kerr effect method, helicity-dependent all-optical magnetiza...
We present an experimental and theoretical investigation of all-optical switching by single femtosec...
The field of spintronics involves the study of both spin and charge transport in solid-state devices...
The ability to control magnetism in sub-picosecond timescales using laser pulses has potential appli...
International audienceBeaurepaire and Bigot when they discovered the ultrafast demagnetization in Ni...
International audienceAll-optical ultrafast magnetization switching in magnetic material thin film w...
During the last 30 years spintronics has been a very rapidly expanding field leading to lots of new ...
International audienceUsing a time-dependent electrical investigation of the all-optical switching i...
\u3cp\u3eWe experimentally demonstrate single-pulse all-optical switching in Pt/Co/Gd stacks using l...
Spintronic devices have shown a lot of promise in low power and non-volatile memory applications. Ho...
All-optical switching (AOS) of magnetization in ferri- and ferromagnetic thin films has in recent ye...
The development of approaches that can efficiently control the magnetization of magnetic materials i...
All-optical switching (AOS) of magnetic materials describes the reversal of the magnetization using ...
Ever since its discovery around a decade ago, all-optical magnetization switching (AOS) using femtos...
Using the time-resolved magneto-optical Kerr effect method, helicity-dependent all-optical magnetiza...
We present an experimental and theoretical investigation of all-optical switching by single femtosec...
The field of spintronics involves the study of both spin and charge transport in solid-state devices...
The ability to control magnetism in sub-picosecond timescales using laser pulses has potential appli...
International audienceBeaurepaire and Bigot when they discovered the ultrafast demagnetization in Ni...
International audienceAll-optical ultrafast magnetization switching in magnetic material thin film w...
During the last 30 years spintronics has been a very rapidly expanding field leading to lots of new ...
International audienceUsing a time-dependent electrical investigation of the all-optical switching i...
\u3cp\u3eWe experimentally demonstrate single-pulse all-optical switching in Pt/Co/Gd stacks using l...
Spintronic devices have shown a lot of promise in low power and non-volatile memory applications. Ho...
All-optical switching (AOS) of magnetization in ferri- and ferromagnetic thin films has in recent ye...
The development of approaches that can efficiently control the magnetization of magnetic materials i...
All-optical switching (AOS) of magnetic materials describes the reversal of the magnetization using ...
Ever since its discovery around a decade ago, all-optical magnetization switching (AOS) using femtos...
Using the time-resolved magneto-optical Kerr effect method, helicity-dependent all-optical magnetiza...
We present an experimental and theoretical investigation of all-optical switching by single femtosec...
The field of spintronics involves the study of both spin and charge transport in solid-state devices...
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