Origins Of Very-Low And Zero-Energy Electron Structures In Strong-Field Ionization With Intense Mid-Ir Pulses

Synopsis Intense long wavelength (lambda >= 2 mu m) laser pulses enable experiments in the tunneling ionization regime (gamma << 1) and reveal surprising low electron energy features, which can not be described with the strong-field approximation (SFA). These features, universal for all target species, include the low-energy structure (LES), the very-low-energy structure (VLES) and the zero-energy structure (ZES). Using full 3D electron-ion coincidence detection in combination with our ultrafast 160 kHz mid-IR source, we reveal the entire 3D momentum spectrum well below 1 eV. Quantum and classical simulations allow for an interpretation of the LES, VLES and of the newly identified ZES.