A new quantum clock for measuring photoemission delay times

In photoionization, the extremely short delay between photon annihilation and electron emission is known as the Eisenbud-Wigner-Smith (EWS) delay, and is usually measured in attoseconds ($10^{-18}$ seconds). We present a new method for measuring this delay, together with experimental results and theoretical calculations. We use two phase-locked Extreme Ultraviolet pulses of frequency $\omega$ and 2$\omega$, from a Free-Electron Laser. This technique avoids the use of the infrared field required by current methods of measuring EWS delays, eliminating the need for corrections of the experimental data due to the IR field. Relative phases between one- and two-photon ionization channels are extracted, and are independent of photoelectron amplitudes. We derived the relative EWS delay for one- and two-photon ionization of neon as a function of emission angle.