Add to ORKGPhoto-excitation can drive strongly correlated electron insulators into competing conducting phases1,2, resulting in giant and ultrafast changes of their electronic and magnetic properties. The underlying non-equilibrium dynamics involve many degrees of freedom at once, whereby sufficiently short optical pulses can trigger the corresponding collective modes of the solid along temporally coherent pathways. The characteristic frequencies of these modes range between the few GHz of acoustic vibrations3 to the tens or even hundreds of THz for purely electronic excitations. Virtually all experiments so far have used 100 fs or longer pulses, detecting only comparatively slow lattice dynamics4,5. Here, we use sub-10-fs optical pulses to study the ...
One challenge in condensed matter physics is the active control of quantum phases of functional tran...
Excitation of optical transitions in solids using ultrashort pulses of light allows to selectively p...
Optical control of magnetism, of interest for high-speed data processing and storage, has only been ...
Photo-excitation can drive strongly correlated electron insulators into competing conducting phases1...
Photo-excitation can drive strongly correlated electron insulators into competing conducting phases(...
Photo-excitation can drive strongly correlated electron insulators into competing conducting phases,...
Controlling a phase of matter by coherently manipulatingspecific vibrational modes has long been an ...
Selective vibrational excitation of insulating Pr0.7Ca0.3MnO3 at 17 ?m triggers a transition to a me...
Controlling a phase of matter by coherently manipulating specific vibrational modes has long been a...
Controlling a phase of matter by coherently manipulating specific vibrational modes has long been an...
Ultrafast light pulses can be used to control electronic, magnetic and structural phases of complex ...
We use femtosecond x-ray diffraction to study the structural response of charge and orbitally ordere...
This thesis reports on experiments and simulations of ultrafast dynamics in correlated materials. Us...
We use sub-10 fs laser pulses in the visible and near IR region of the spectrum in order to probe th...
We use time-resolved x-ray absorption near-edge structure spectroscopy to investigate the electronic...
One challenge in condensed matter physics is the active control of quantum phases of functional tran...
Excitation of optical transitions in solids using ultrashort pulses of light allows to selectively p...
Optical control of magnetism, of interest for high-speed data processing and storage, has only been ...
Photo-excitation can drive strongly correlated electron insulators into competing conducting phases1...
Photo-excitation can drive strongly correlated electron insulators into competing conducting phases(...
Photo-excitation can drive strongly correlated electron insulators into competing conducting phases,...
Controlling a phase of matter by coherently manipulatingspecific vibrational modes has long been an ...
Selective vibrational excitation of insulating Pr0.7Ca0.3MnO3 at 17 ?m triggers a transition to a me...
Controlling a phase of matter by coherently manipulating specific vibrational modes has long been a...
Controlling a phase of matter by coherently manipulating specific vibrational modes has long been an...
Ultrafast light pulses can be used to control electronic, magnetic and structural phases of complex ...
We use femtosecond x-ray diffraction to study the structural response of charge and orbitally ordere...
This thesis reports on experiments and simulations of ultrafast dynamics in correlated materials. Us...
We use sub-10 fs laser pulses in the visible and near IR region of the spectrum in order to probe th...
We use time-resolved x-ray absorption near-edge structure spectroscopy to investigate the electronic...
One challenge in condensed matter physics is the active control of quantum phases of functional tran...
Excitation of optical transitions in solids using ultrashort pulses of light allows to selectively p...
Optical control of magnetism, of interest for high-speed data processing and storage, has only been ...