Magnetic recording using circularly polarised femto-second laser pulses is an emerging technology that would allow write speeds much faster than existing field driven methods. However, the mechanism that drives the magnetisation switching in ferromagnets is unclear. Recent theories suggest that the interaction of the light with the magnetised media induces an opto-magnetic field within the media, known as the inverse Faraday effect. Here we show that an alternative mechanism, driven by thermal excitation over the anisotropy energy barrier and a difference in the energy absorption depending on polarisation, can create a net magnetisation over a series of laser pulses in an ensemble of single domain grains. Only a small difference in the abso...
The switching of magnetization by ultrafast lasers alone in FePt could open a technological perspect...
The interaction of sub-picosecond laser pulses with magnetically ordered materials has developed int...
We experimentally demonstrate single-pulse all-optical switching in Pt/Co/Gd stacks using linearly p...
Magnetic recording using circularly polarised femto-second laser pulses is an emerging technology th...
[EN] There is a lot of experimental evidence of All Optical Switching (AOS) by applying ultrashort l...
International audienceWe use density functional theory to quantitatively compute the effect of light...
International audienceAll-optical magnetic switching (AOS) is a recently observed rich and puzzling ...
Abstract. We propose a new strategy for ultrafast magnetization reversal of nanomagnets. Due to the ...
Imagine being able to write magnetic information efficiently at THz data rates, creating such conten...
Manipulation of magnetisation with ultrashort laser pulses is promising for information storage devi...
We explore the possibility of ultrafast, coherent all-optical magnetization switching in antiferroma...
Ever since the discovery of all-optical magnetization switching (AOS) around a decade ago, this phen...
[EN] The control of the magnetization at the microscale by pure optical means is fundamentally inter...
The microscopic mechanism behind the all optical switching (AOS) in ferromagnets has triggered inten...
International audienceUsing a time-dependent electrical investigation of the all-optical switching i...
The switching of magnetization by ultrafast lasers alone in FePt could open a technological perspect...
The interaction of sub-picosecond laser pulses with magnetically ordered materials has developed int...
We experimentally demonstrate single-pulse all-optical switching in Pt/Co/Gd stacks using linearly p...
Magnetic recording using circularly polarised femto-second laser pulses is an emerging technology th...
[EN] There is a lot of experimental evidence of All Optical Switching (AOS) by applying ultrashort l...
International audienceWe use density functional theory to quantitatively compute the effect of light...
International audienceAll-optical magnetic switching (AOS) is a recently observed rich and puzzling ...
Abstract. We propose a new strategy for ultrafast magnetization reversal of nanomagnets. Due to the ...
Imagine being able to write magnetic information efficiently at THz data rates, creating such conten...
Manipulation of magnetisation with ultrashort laser pulses is promising for information storage devi...
We explore the possibility of ultrafast, coherent all-optical magnetization switching in antiferroma...
Ever since the discovery of all-optical magnetization switching (AOS) around a decade ago, this phen...
[EN] The control of the magnetization at the microscale by pure optical means is fundamentally inter...
The microscopic mechanism behind the all optical switching (AOS) in ferromagnets has triggered inten...
International audienceUsing a time-dependent electrical investigation of the all-optical switching i...
The switching of magnetization by ultrafast lasers alone in FePt could open a technological perspect...
The interaction of sub-picosecond laser pulses with magnetically ordered materials has developed int...
We experimentally demonstrate single-pulse all-optical switching in Pt/Co/Gd stacks using linearly p...
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