Method and device for cavity-enhanced broadband intrapulse difference frequency generation

Abstract

A method of creating difference frequency (DF) laser pulses () by difference frequency generation (DFG) comprises the steps of providing ultrashort laser pulses () having a spectral bandwidth corresponding to a Fourier limit of below 50 fs and containing first spectral components and second spectral components having larger frequencies than the first spectral components, and driving a DFG process by the ultrashort laser pulses () in an optically non-linear crystal (), wherein the DF laser pulses () are generated in the crystal () by difference frequencies between the first and second spectral components, resp., said difference frequencies comprising third spectral components being lower in frequency than the first and second spectral components, wherein at least one enhancement cavity () with resonator mirrors (Mito M) spanning a beam path () is provided and the crystal () is placed in the beam path () of the enhancement cavity (), the ultrashort laser pulses () are input coupled and coherently added in the at least one enhancement cavity (), at least one circulating ultrashort laser pulse () is created in the at least one enhancement cavity (), which drives the DFG process in the crystal () for generating the DF laser pulses (), and the at least one enhancement cavity () is adapted for recycling the at least one ultrashort laser pulse () passing through the crystal (). Furthermore, a photonic source () for creating DF laser pulses () is described, including one or more enhancement cavities.