A general approximator for strong-field ionization rates

We show that it is possible to retrieve sub-optical-cycle dynamics of strong-field ionization from ionization probabilities obtained for a set of few-cycle laser pulses that covers a sufficiently broad parameter space. To this end, we introduce a General Approximator for Strong-Field Ionization Rates (GASFIR). Unlike existing analytical models of multiphoton ionization, GASFIR is a retrieval tool. It has a few adjustable parameters that provide the flexibility required to accurately reconstruct ab initio data. At the same time, GASFIR imposes only the most essential constraints on ionization rates, which makes it suitable for time-domain investigations of complex quantum phenomena that influence strong-field ionization. We benchmark GASFIR for atomic hydrogen. By examining the quasistatic limit of GASFIR, we demonstrate its relationship to well-established theories of tunneling ionization and show that it accurately reproduces published quasistatic rates for tunneling ionization.