Initial carrier-envelope phase of few-cycle pulses determined by THz emission from air plasma

TL;DR

This paper demonstrates that the THz waveform generated in air plasma can be used to accurately determine the initial carrier-envelope phase of few-cycle pulses, with the number and position of waveform inversions serving as key indicators.

Contribution

It introduces a novel method for measuring the initial CEP of few-cycle pulses using THz emission characteristics in air plasma, enhancing measurement precision.

Findings

THz waveform inversions depend on initial CEP

Number and position of inversions relate to CEP value

Method achieves high accuracy limited by pulse stability

Abstract

The evolution of THz waveform generated in air plasma provides a sensitive probe to the variation of the carrier envelope phase (CEP) of propagating intense few-cycle pulses. Our experimental observation and calculation reveal that the number and positions of the inversion of THz waveform are dependent on the initial CEP, which is near 0.5{\pi} constantly under varied input pulse energies when two inversions of THz waveform in air plasma become one. This provides a method of measuring the initial CEP in an accuracy that is only limited by the stability of the driving few-cycle pulses.