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Schlauderer, Stefan, Lange, Christoph, Baierl, Sebastian, Ebnet, Thomas, Schmid, Christoph P., Valovcin, D. C., Zvezdin, A. K., Kimel, A. V. , Mikhaylovskiy, R. V. and Huber, Rupert (2019) Temporal and spectral fingerprints of ultrafast all-coherent spin switching. Nature 569, pp. 383-387.Preview
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Schlauderer, Stefan, Lange, Christoph, Baierl, Sebastian, Ebnet, Thomas, Schmid, C. P., Valovcin, D. C., Zvezdin, A. K., Kimel, A. V. , Mikhaylovskiy, R. V. and Huber, Rupert
(2019)
Data archive of "Temporal and spectral fingerprints of ultrafast all-coherent spin switching".
[Dataset]
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Stilp, Fabian , Bereczuk, Andreas , Berwanger, Julian , Mundigl, Nadine , Richter, Klaus and Giessibl, Franz J.
(2021)
Very weak bonds to artificial atoms formed by quantum corrals.
Science 372 (6547), pp. 1196-1200.
[Currently displayed]
- Stilp, Fabian, Bereczuk, Andreas , Berwanger, Julian , Mundigl, Nadine, Richter, Klaus and Giessibl, Franz J. (2021) Data archive of "Very weak bonds to artificial atoms formed by quantum corrals". [Dataset]
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Stilp, Fabian , Bereczuk, Andreas , Berwanger, Julian , Mundigl, Nadine , Richter, Klaus and Giessibl, Franz J.
(2021)
Very weak bonds to artificial atoms formed by quantum corrals.
Science 372 (6547), pp. 1196-1200.
[Currently displayed]
-
Schlauderer, Stefan, Lange, Christoph, Baierl, Sebastian, Ebnet, Thomas, Schmid, C. P., Valovcin, D. C., Zvezdin, A. K., Kimel, A. V. , Mikhaylovskiy, R. V. and Huber, Rupert
(2019)
Data archive of "Temporal and spectral fingerprints of ultrafast all-coherent spin switching".
[Dataset]
Item type: | Article | ||||||
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Journal or Publication Title: | Science | ||||||
Publisher: | AMER ASSOC ADVANCEMENT SCIENCE | ||||||
Place of Publication: | WASHINGTON | ||||||
Volume: | 372 | ||||||
Number of Issue or Book Chapter: | 6547 | ||||||
Page Range: | pp. 1196-1200 | ||||||
Date: | 12 June 2021 | ||||||
Institutions: | Physics > Institute of Theroretical Physics > Chair Professor Richter > Group Klaus Richter Physics > Institute of Experimental and Applied Physics > Chair Professor Giessibl > Group Franz J. Giessibl | ||||||
Identification Number: |
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Related URLs: | |||||||
Keywords: | FORCE; MANIPULATION; WAVES | ||||||
Dewey Decimal Classification: | 500 Science > 530 Physics | ||||||
Status: | Published | ||||||
Refereed: | Yes, this version has been refereed | ||||||
Created at the University of Regensburg: | Yes | ||||||
Item ID: | 45823 |
Abstract
We explored the bonding properties of the quantum corral (a circle of 48 iron atoms placed on a copper surface) reported by Crommie et al. in 1993, along with variants, as an artificial atom using an atomic force microscope (AFM). The original corral geometry confines 102 electrons to 28 discrete energy states, and we found that these states can form a bond to the front atom of the AFM with an ...
Abstract
We explored the bonding properties of the quantum corral (a circle of 48 iron atoms placed on a copper surface) reported by Crommie et al. in 1993, along with variants, as an artificial atom using an atomic force microscope (AFM). The original corral geometry confines 102 electrons to 28 discrete energy states, and we found that these states can form a bond to the front atom of the AFM with an energy of about 5 millielectron volts. The measured forces are about 1/1000 of typical forces in atomically resolved AFM. The confined electrons showed covalent attraction to metal tips and Pauli repulsion to CO-terminated tips. The repulsion at close distance was evident from the response of corral states created by deliberately placing single iron atoms inside the corral. The forces scaled appropriately with a 24-atom corral.
Metadata last modified: 29 Sep 2021 07:42