Attosecond spectroscopy in condensed matter

被引:0
|
作者
A. L. Cavalieri
N. Müller
Th. Uphues
V. S. Yakovlev
A. Baltuška
B. Horvath
B. Schmidt
L. Blümel
R. Holzwarth
S. Hendel
M. Drescher
U. Kleineberg
P. M. Echenique
R. Kienberger
F. Krausz
U. Heinzmann
机构
[1] Max-Planck-Institut für Quantenoptik,Department für Physik
[2] Hans-Kopfermann-Str. 1,undefined
[3] D-85748 Garching,undefined
[4] Germany ,undefined
[5] Fakultät für Physik,undefined
[6] Universität Bielefeld,undefined
[7] Ludwig-Maximilians-Universität,undefined
[8] Am Coulombwall 1,undefined
[9] D-85748 Garching,undefined
[10] Germany,undefined
[11] Institut für Photonik,undefined
[12] Technische Universität Wien,undefined
[13] Gußhausstr. 27,undefined
[14] A-1040 Wien,undefined
[15] Austria ,undefined
[16] Menlo Systems GmbH,undefined
[17] Am Klopferspitz 19,undefined
[18] D-82152 Martinsried,undefined
[19] Germany ,undefined
[20] Institut für Experimentalphysik,undefined
[21] Universität Hamburg,undefined
[22] Luruper Chaussee 149,undefined
[23] D-22761 Hamburg,undefined
[24] Germany ,undefined
[25] Dpto. Fisica de Materiales UPV/EHU,undefined
[26] Centro Mixto CSIC-UPV/EHU and Donostia International Physics Center (DPIC),undefined
[27] Paseo Manual de Lardizabal 4,undefined
[28] 20018 San Sebastian,undefined
[29] Spain ,undefined
来源
Nature | 2007年 / 449卷
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摘要
Electrons move in solids at very high speed — traversing atomic layers and interfaces within tens to hundreds of attoseconds (an attosecond is a billionth of a billionth of a second). These astonishingly brief travel times will ultimately limit the speed of the electronics of the future. Physicists have now experimentally probed such electron dynamics in real time. The cover illustrates the first attosecond spectroscopic measurement in a solid, revealing a 110-attosecond difference in the travel time of two different types of electrons following photoexcitation in a tungsten crystal. The ability to time electrons moving in solids over merely a few interatomic distances makes it possible to probe the solid-state electronic processes occurring at the ultimate speed limit and thus helps to advance technologies such as computation, data storage and photovoltaics, which all rely on exquisite control of electron transport in ever smaller structures of solid matter.
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页码:1029 / 1032
页数:3
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