Advances in strong-field laser physics and ultrafast optics allow the study of ultrafast dynamics on electronic time scales. Here, recent developments from the past year in the field of attosecond electron dynamics are highlighted.Accepted versio
Light pulses of sub-100 as (1 as=10-18 s) duration, with photon energies in the extreme-ultraviolet ...
The response of solids to electromagnetic fields is of crucial importance in many areas of science a...
Investigations of light–matter interactions and motion in the microcosm have entered a new temporal ...
Advances in strong-field laser physics and ultrafast optics allow the study of ultrafast dynamics on...
Since 2001 and the first demonstrations of the feasibility of generating and measuring attosecond li...
Strong-field phenomena are a driving force behind the latest innovations in ultrafast science. As ul...
Electron motion inmatter occurs on a temporal scale of a few hundreds of attoseconds, a time scale s...
The response of solids to electromagnetic fields is of crucial importance in many areas of science a...
Recently two emerging areas of research, attosecond and nanoscale physics, have started to come toge...
Attosecond technology is a radical departure from all the optical (and collision) technology that pr...
Advances in attosecond science have led to a wealth of important discoveries in atomic, molecular, a...
The development of novel tools for the generation of attosecond light pulses is continuously trigger...
The generation of ultrashort pulses is a key to exploring the dynamic behaviour of matter on ever-sh...
Light pulses of sub-100 as (1 as=10-18 s) duration, with photon energies in the extreme-ultraviolet ...
The response of solids to electromagnetic fields is of crucial importance in many areas of science a...
Investigations of light–matter interactions and motion in the microcosm have entered a new temporal ...
Advances in strong-field laser physics and ultrafast optics allow the study of ultrafast dynamics on...
Since 2001 and the first demonstrations of the feasibility of generating and measuring attosecond li...
Strong-field phenomena are a driving force behind the latest innovations in ultrafast science. As ul...
Electron motion inmatter occurs on a temporal scale of a few hundreds of attoseconds, a time scale s...
The response of solids to electromagnetic fields is of crucial importance in many areas of science a...
Recently two emerging areas of research, attosecond and nanoscale physics, have started to come toge...
Attosecond technology is a radical departure from all the optical (and collision) technology that pr...
Advances in attosecond science have led to a wealth of important discoveries in atomic, molecular, a...
The development of novel tools for the generation of attosecond light pulses is continuously trigger...
The generation of ultrashort pulses is a key to exploring the dynamic behaviour of matter on ever-sh...
Light pulses of sub-100 as (1 as=10-18 s) duration, with photon energies in the extreme-ultraviolet ...
The response of solids to electromagnetic fields is of crucial importance in many areas of science a...
Investigations of light–matter interactions and motion in the microcosm have entered a new temporal ...
DOI
Add to ORKG