Add to ORKGThe angular distribution and energy spectrum of hot electrons produced in the interaction of ultra-short ultra-intense laser pulses with solid foil targets are investigated. Results show that bath the angular distribution and the energy spectrum reveal anisotropic behavior. This anisotropy is believed to be related to the electron generation mechanism. The existence of energy anisotropy explains why different experimental groups obtained quite different elctron temperatures under the same laser intensity
Characterization of hot electron production (a conversion efficiency from laser energy into electron...
The transport of energetic electron beams generated from aluminum foils irradiated by ultraintense l...
We have measured electron kinetic energy spectra from the interaction of a low-density beam of noble...
The effect of laser incidence angle on the angular distribution of hot electrons generated in the in...
We report a study of spectral and angular distributions of electrons directly accelerated from an ul...
The effects of target thickness on emission directions of hot electrons are investigated in the inte...
A new method of diagnostics of hot electrons from a laser-produced plasma is experimentally demonstr...
We present experimental data of electron energy distributions from ultra-intense (>10{sup 19} W/c...
The interaction of an ultrahigh intensity, short-pulse laser with solids generates a large number of...
The energy spectra and angular distribution of hot electrons from a foil target irradiated by femtos...
Energy and angular distributions of the fast outgoing electron beam induced by the interaction of 1-...
The characteristics of hot electrons produced by p-polarized femtosecond laser-solid interactions ar...
The angular distribution of energetic electrons emitted from thin foil targets irradiated by intense...
Retrieving the characteristics of hot electrons produced in the interaction between solid targets an...
In this work, we present the results of experiments observing the properties of the electron stream ...
Characterization of hot electron production (a conversion efficiency from laser energy into electron...
The transport of energetic electron beams generated from aluminum foils irradiated by ultraintense l...
We have measured electron kinetic energy spectra from the interaction of a low-density beam of noble...
The effect of laser incidence angle on the angular distribution of hot electrons generated in the in...
We report a study of spectral and angular distributions of electrons directly accelerated from an ul...
The effects of target thickness on emission directions of hot electrons are investigated in the inte...
A new method of diagnostics of hot electrons from a laser-produced plasma is experimentally demonstr...
We present experimental data of electron energy distributions from ultra-intense (>10{sup 19} W/c...
The interaction of an ultrahigh intensity, short-pulse laser with solids generates a large number of...
The energy spectra and angular distribution of hot electrons from a foil target irradiated by femtos...
Energy and angular distributions of the fast outgoing electron beam induced by the interaction of 1-...
The characteristics of hot electrons produced by p-polarized femtosecond laser-solid interactions ar...
The angular distribution of energetic electrons emitted from thin foil targets irradiated by intense...
Retrieving the characteristics of hot electrons produced in the interaction between solid targets an...
In this work, we present the results of experiments observing the properties of the electron stream ...
Characterization of hot electron production (a conversion efficiency from laser energy into electron...
The transport of energetic electron beams generated from aluminum foils irradiated by ultraintense l...
We have measured electron kinetic energy spectra from the interaction of a low-density beam of noble...