Magnetic materials are vital components of many existing and future applications, from data storage and spin-logic devices, to Terahertz sensors and artificial synapses from neuromorphing computing. Driven by the need to faster responses and high-density storage, the focus of this work is the modeling of thermal and optical excitation of magnetic materials by an external laser source.Many models focus on the use of fields or current as the primary driving force behind the change in magnetization and the models, without taking in account the optical contribution of the light, which has been shown to produce changes in magnetizing on a faster timescale than the ones observed with the use of either current or field. Moreover, granular media ar...
This work is concerned with the important connection that exists between micromagnetism and high fre...
Information loss due to thermal activation is a major concern in ultrahigh-density magnetic recordin...
Magnetic recording using circularly polarised femto-second laser pulses is an emerging technology th...
The dynamic process of assisted magnetic switchings has been simulated to investigate the associated...
Magnetic nanostructures are vital components of numerous existing and prospective magnetic devices, ...
[EN] The control of the magnetization at the microscale by pure optical means is fundamentally inter...
Heat-assisted magnetic recording (HAMR) technology represents the most promising candidate to replac...
The continuing need for increased information storage capacity has driven a remarkable increase in a...
Controlling the relaxation of magnetization in magnetic nanostructures is key to optimizing magnetic...
The switching of magnetization by ultrafast lasers alone in FePt could open a technological perspect...
Magnetic materials are now controllable down to a nanometer length scale and, hence, there is a broa...
Over the past 50 years, our society has experienced a technological revolution that has fundamentall...
With increasing demand for high density magnetic recording devices a paradigm shift is required to o...
We introduce a microscopic model to describe the ultrafast response of magnetic materials with two s...
This Ph.D. thesis focuses on studying magnetization dynamics of magnetic materials on sub-picosecond...
This work is concerned with the important connection that exists between micromagnetism and high fre...
Information loss due to thermal activation is a major concern in ultrahigh-density magnetic recordin...
Magnetic recording using circularly polarised femto-second laser pulses is an emerging technology th...
The dynamic process of assisted magnetic switchings has been simulated to investigate the associated...
Magnetic nanostructures are vital components of numerous existing and prospective magnetic devices, ...
[EN] The control of the magnetization at the microscale by pure optical means is fundamentally inter...
Heat-assisted magnetic recording (HAMR) technology represents the most promising candidate to replac...
The continuing need for increased information storage capacity has driven a remarkable increase in a...
Controlling the relaxation of magnetization in magnetic nanostructures is key to optimizing magnetic...
The switching of magnetization by ultrafast lasers alone in FePt could open a technological perspect...
Magnetic materials are now controllable down to a nanometer length scale and, hence, there is a broa...
Over the past 50 years, our society has experienced a technological revolution that has fundamentall...
With increasing demand for high density magnetic recording devices a paradigm shift is required to o...
We introduce a microscopic model to describe the ultrafast response of magnetic materials with two s...
This Ph.D. thesis focuses on studying magnetization dynamics of magnetic materials on sub-picosecond...
This work is concerned with the important connection that exists between micromagnetism and high fre...
Information loss due to thermal activation is a major concern in ultrahigh-density magnetic recordin...
Magnetic recording using circularly polarised femto-second laser pulses is an emerging technology th...