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DOI10.1126/science.aaz1098
Attosecond coherent manipulation of electrons in tunneling microscopy
Garg M.; Kern K.
发表日期2020
ISSN0036-8075
起始页码411
结束页码415
卷号367期号:6476
英文摘要Nanoelectronic devices operating in the quantum regime require coherent manipulation and control over electrons at atomic length and time scales. We demonstrate coherent control over electrons in a tunnel junction of a scanning tunneling microscope by means of precise tuning of the carrier-envelope phase of two-cycle long (<6-femtosecond) optical pulses. We explore photon and field-driven tunneling, two different regimes of interaction of optical pulses with the tunnel junction, and demonstrate a transition from one regime to the other. Our results show that it is possible to induce, track, and control electronic current at atomic scales with subfemtosecond resolution, providing a route to develop petahertz coherent nanoelectronics and microscopy. Copyright © 2020 The Authors,
关键词nanorodcontrol systemelectronelectronic equipmentmicroscopyoptical propertyArticleatomdirect currentelectric currentelectric fieldelectric potentialelectronimage qualitylinear systemmultiphoton microscopynanotechnologyopticspolarizationpriority journalscanning tunneling microscopytemperature sensitivitytime factor
语种英语
来源机构Science
文献类型期刊论文
条目标识符http://gcip.llas.ac.cn/handle/2XKMVOVA/133827
推荐引用方式
GB/T 7714		 Garg M.,Kern K.. Attosecond coherent manipulation of electrons in tunneling microscopy[J]. Science,2020,367(6476).
APA Garg M.,&Kern K..(2020).Attosecond coherent manipulation of electrons in tunneling microscopy.,367(6476).
MLA Garg M.,et al."Attosecond coherent manipulation of electrons in tunneling microscopy".367.6476(2020).
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