International audienceWe have recently demonstrated that the fast momentum relaxation due to electron-phonon scattering of hot electrons excited into the conduction band of GaAs leads to the formation of hot-electron ensembles spread over the Brillouin zone. In the present work, we study the energy relaxation of hot-electron ensembles in GaAs, by means of ab initio calculations and time-, energy-, and momentum-resolved spectroscopy. We theoretically show that when the temperature decreases, the energy relaxation time ascribed to electron-phonon interaction becomes faster than at ambient temperature and prove that this is indeed the case in the experimental results
International audienceWe study ultrafast scattering dynamics of hot electrons photoinjected with hig...
International audienceWe study ultrafast scattering dynamics of hot electrons photoinjected with hig...
International audienceWe study ultrafast scattering dynamics of hot electrons photoinjected with hig...
International audienceWe have recently demonstrated that the fast momentum relaxation due to electro...
International audienceWe have recently demonstrated that the fast momentum relaxation due to electro...
International audienceWe have recently demonstrated that the fast momentum relaxation due to electro...
International audienceWe have recently demonstrated that the fast momentum relaxation due to electro...
International audienceWe have recently demonstrated that the fast momentum relaxation due to electro...
International audienceWe have recently demonstrated that the fast momentum relaxation due to electro...
International audienceWe have recently demonstrated that the fast momentum relaxation due to electro...
International audienceWe have recently demonstrated that the fast momentum relaxation due to electro...
Hot carrier dynamics critically impacts the performance of electronic, optoelectronic, photovoltaic,...
International audienceWe study ultrafast scattering dynamics of hot electrons photoinjected with hig...
International audienceWe study ultrafast scattering dynamics of hot electrons photoinjected with hig...
International audienceWe study ultrafast scattering dynamics of hot electrons photoinjected with hig...
International audienceWe study ultrafast scattering dynamics of hot electrons photoinjected with hig...
International audienceWe study ultrafast scattering dynamics of hot electrons photoinjected with hig...
International audienceWe study ultrafast scattering dynamics of hot electrons photoinjected with hig...
International audienceWe have recently demonstrated that the fast momentum relaxation due to electro...
International audienceWe have recently demonstrated that the fast momentum relaxation due to electro...
International audienceWe have recently demonstrated that the fast momentum relaxation due to electro...
International audienceWe have recently demonstrated that the fast momentum relaxation due to electro...
International audienceWe have recently demonstrated that the fast momentum relaxation due to electro...
International audienceWe have recently demonstrated that the fast momentum relaxation due to electro...
International audienceWe have recently demonstrated that the fast momentum relaxation due to electro...
International audienceWe have recently demonstrated that the fast momentum relaxation due to electro...
Hot carrier dynamics critically impacts the performance of electronic, optoelectronic, photovoltaic,...
International audienceWe study ultrafast scattering dynamics of hot electrons photoinjected with hig...
International audienceWe study ultrafast scattering dynamics of hot electrons photoinjected with hig...
International audienceWe study ultrafast scattering dynamics of hot electrons photoinjected with hig...
International audienceWe study ultrafast scattering dynamics of hot electrons photoinjected with hig...
International audienceWe study ultrafast scattering dynamics of hot electrons photoinjected with hig...
International audienceWe study ultrafast scattering dynamics of hot electrons photoinjected with hig...