Add to ORKGUpon femtosecond laser irradiation, a bright, broadband photoluminescence is observed from graphene at frequencies well above the excitation frequency. Analyses show that it arises from radiative recombination of a broad distribution of nonequilibrium electrons and holes, generated by rapid scattering between photoexcited carriers within tens of femtoseconds after the optical excitation. Its highly unusual characteristics come from the unique electronic and structural properties of graphene
Bright hot plasmon emission is observed in graphene due to the ultrafast relaxation of hot carriers ...
This work reports on investigations of carrier dynamics in graphene after optical excitation by an u...
We perform first-principles calculations to study the high-order harmonic generation induced in grap...
Upon femtosecond laser irradiation, a bright, broadband photoluminescence is observed from graphene ...
Upon femtosecond laser irradiation, a bright, broadband photoluminescence is observed from graphene ...
We present a joint theory-experiment study on ultrafast photoluminescence from photoexcited graphene...
We present a joint theory-experiment study on ultrafast photoluminescence from photo-excited graphen...
We present a joint theory-experiment study on ultrafast photoluminescence from photoexcited graphene...
Graphene does not possess a band gap, and hot carrier relaxation in graphene is an ultrafast process...
Graphene is in the focus of research due to its unique electronic and optical properties. Intrinsic ...
Efficient nonradiative carrier recombination strongly counteracts the appearance of optical gain in ...
17 pages, 3 figuresNonlinear couplings between photons and electrons in new materials give rise to a...
The conversion of light into free electron–hole pairs constitutes the key process in the fields of p...
The conversion of light into free electron–hole pairs constitutes the key process in the fields of p...
We demonstrate subcycle electron pulse generation in a nanogap of graphene when irradiated by a femt...
Bright hot plasmon emission is observed in graphene due to the ultrafast relaxation of hot carriers ...
This work reports on investigations of carrier dynamics in graphene after optical excitation by an u...
We perform first-principles calculations to study the high-order harmonic generation induced in grap...
Upon femtosecond laser irradiation, a bright, broadband photoluminescence is observed from graphene ...
Upon femtosecond laser irradiation, a bright, broadband photoluminescence is observed from graphene ...
We present a joint theory-experiment study on ultrafast photoluminescence from photoexcited graphene...
We present a joint theory-experiment study on ultrafast photoluminescence from photo-excited graphen...
We present a joint theory-experiment study on ultrafast photoluminescence from photoexcited graphene...
Graphene does not possess a band gap, and hot carrier relaxation in graphene is an ultrafast process...
Graphene is in the focus of research due to its unique electronic and optical properties. Intrinsic ...
Efficient nonradiative carrier recombination strongly counteracts the appearance of optical gain in ...
17 pages, 3 figuresNonlinear couplings between photons and electrons in new materials give rise to a...
The conversion of light into free electron–hole pairs constitutes the key process in the fields of p...
The conversion of light into free electron–hole pairs constitutes the key process in the fields of p...
We demonstrate subcycle electron pulse generation in a nanogap of graphene when irradiated by a femt...
Bright hot plasmon emission is observed in graphene due to the ultrafast relaxation of hot carriers ...
This work reports on investigations of carrier dynamics in graphene after optical excitation by an u...
We perform first-principles calculations to study the high-order harmonic generation induced in grap...