Principal frequency of an ultrashort laser pulse
Abstract
We introduce an alternative definition of the main frequency of an ultrashort laser pulse, the principal frequency ωP. This parameter is complementary to the most accepted and widely used carrier frequency ω0. Given the fact that these ultrashort pulses, also known as transients, have a temporal width comprising only few cycles of the carrier wave, corresponding to a spectral bandwidth ω covering several octaves, ωP describes, in a more precise way, the dynamics driven by these sources. We present examples where, for instance, ωP is able to correctly predict the high-order harmonic cutoff independently of the carrier envelope phase. This is confirmed by solving the time-dependent Schr\"odinger equation in reduced dimensions, supplemented with the time-analysis of the quantum spectra, where it is possible to observe how the sub-cycle electron dynamics is better described using ωP. The concept of ωP, however, can be applied to a large variety of scenarios, not only within the strong field physics domain.
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