The universal response of a sudden created core hole, predicted to occur on an attosecond (10−18 s) time scale, lacks an experimental demonstration. With a two-dimensional coincidence spectrometer, we demonstrate an extensive energy sharing between the Ag 4p photoelectron and the N2,3VV Auger electron exceeding 10 eV. This energy width provides access to the time scale of the emission process. This is the fingerprint of the dynamic fluctuation process 4p−1⇌4d−24f. The shakeup induced interband transitions from the Ag(100) surface are also identified by comparing the coincidence spectrum with the M4,5VV Auger transitions.
Wei, Z., Schumann, F.o., Li, C.h., Behnke, L., Di Filippo, G., Stefani, G., et al. (2014). Dynamic screening probed by core resonant double photoemission from surfaces. PHYSICAL REVIEW LETTERS, 113(26) [10.1103/Phys.Rev.Lett.113.267603].
Dynamic screening probed by core resonant double photoemission from surfaces
STEFANI, Giovanni;
2014-01-01
Abstract
The universal response of a sudden created core hole, predicted to occur on an attosecond (10−18 s) time scale, lacks an experimental demonstration. With a two-dimensional coincidence spectrometer, we demonstrate an extensive energy sharing between the Ag 4p photoelectron and the N2,3VV Auger electron exceeding 10 eV. This energy width provides access to the time scale of the emission process. This is the fingerprint of the dynamic fluctuation process 4p−1⇌4d−24f. The shakeup induced interband transitions from the Ag(100) surface are also identified by comparing the coincidence spectrum with the M4,5VV Auger transitions.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
