Real-time observation of valence electron motion.

Goulielmakis, E; Loh, Z -H; Wirth, A; Santra, R; Rohringer, N; Yakovlev, V S; Zherebtsov, S; Pfeifer, T; Azzeer, A M; Kling, M F; Leone, S R; Krausz, F; Quantenoptik, Max-Planck-Insti fur; LBNL,; LLNL,

doi:10.1038/nature09212

Title: Real-time observation of valence electron motion.

Journal Article · Thu Aug 05 00:00:00 EDT 2010 · Nature

DOI:https://doi.org/10.1038/nature09212· OSTI ID:986298

Goulielmakis, E; Loh, Z -H; Wirth, A; Santra, R; Rohringer, N; Yakovlev, V S; Zherebtsov, S; Pfeifer, T; Azzeer, A M; Kling, M F; Leone, S R; Krausz, F; Quantenoptik, Max-Planck-Insti fur; LBNL,; LLNL,

The superposition of quantum states drives motion on the atomic and subatomic scales, with the energy spacing of the states dictating the speed of the motion. In the case of electrons residing in the outer (valence) shells of atoms and molecules which are separated by electronvolt energies, this means that valence electron motion occurs on a subfemtosecond to few-femtosecond timescale (1 fs = 10{sup -15} s). In the absence of complete measurements, the motion can be characterized in terms of a complex quantity, the density matrix. Here we report an attosecond pump-probe measurement of the density matrix of valence electrons in atomic krypton ions. We generate the ions with a controlled few-cycle laser field and then probe them through the spectrally resolved absorption of an attosecond extreme-ultraviolet pulse, which allows us to observe in real time the subfemtosecond motion of valence electrons over a multifemtosecond time span. We are able to completely characterize the quantum mechanical electron motion and determine its degree of coherence in the specimen of the ensemble. Although the present study uses a simple, prototypical open system, attosecond transient absorption spectroscopy should be applicable to molecules and solid-state materials to reveal the elementary electron motions that control physical, chemical and biological properties and processes.

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Research Organization:: Argonne National Lab. (ANL), Argonne, IL (United States)

Sponsoring Organization:: USDOE Office of Science (SC); USDOD; National Science Foundation (NSF)

DOE Contract Number:: DE-AC02-06CH11357

OSTI ID:: 986298

Report Number(s):: ANL/CSE/JA-65365; TRN: US1006320

Journal Information:: Nature, Vol. 466, Issue Aug. 5, 2010

Country of Publication:: United States

Language:: ENGLISH

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74 ATOMIC AND MOLECULAR PHYSICS
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