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Double Helical Plasmonic Antennas
Advanced Functional Materials, EarlyView.Plasmonic double helical antennas funnel circularly polarized light to the nanoscale, offering strong chiroptical interaction and directional light emission. Extending a single helix design tool, this study combines numerical modeling with experimental validation, revealing large, broadband dissymmetry factors in the visible range.
Aleksei Tsarapkin +7 more
wiley +1 more source
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Nanoscale terahertz scanning probe microscopy
Nature Photonics, 2021Tyler Cocker +2 more
exaly +2 more sources
Analytical Chemistry, 2004
Scanning probe microscopes (SPMs) generate a highly-resolved image of the specimen by scanning its surface with a tiny mechanical, electrical, optical, thermal, or other probe. Often the tip radius of the probe is only a few nm or less. Examples for SPMs are the atomic force microscope (AFM; Sect.
Mark A, Poggi +5 more
+8 more sources
Scanning probe microscopes (SPMs) generate a highly-resolved image of the specimen by scanning its surface with a tiny mechanical, electrical, optical, thermal, or other probe. Often the tip radius of the probe is only a few nm or less. Examples for SPMs are the atomic force microscope (AFM; Sect.
Mark A, Poggi +5 more
+8 more sources
Automated and Autonomous Experiments in Electron and Scanning Probe Microscopy.
ACS Nano, 2021Machine learning and artificial intelligence (ML/AI) are rapidly becoming an indispensable part of physics research, with domain applications ranging from theory and materials prediction to high-throughput data analysis. In parallel, the recent successes
Sergei V. Kalinin +8 more
semanticscholar +1 more source
Current Opinion in Chemical Biology, 1997
During the past year, scanning probe microscopy, especially atomic force microscopy (AFM), has taken root in the biological sciences community, as is evident from the large number of publications and from the variety of specialized journals in which these papers appear.
R J, Colton +4 more
openaire +4 more sources
During the past year, scanning probe microscopy, especially atomic force microscopy (AFM), has taken root in the biological sciences community, as is evident from the large number of publications and from the variety of specialized journals in which these papers appear.
R J, Colton +4 more
openaire +4 more sources
Analytical Chemistry, 1994
The literature concerning scanning tunneling microscopy (STM) and atomic force microscopy (AFM) continues to grow. This review will cover the literature published since the last review of this kind and include the time period from December 1991 to December 1993 (AI).
D R, Louder, B A, Parkinson
openaire +2 more sources
The literature concerning scanning tunneling microscopy (STM) and atomic force microscopy (AFM) continues to grow. This review will cover the literature published since the last review of this kind and include the time period from December 1991 to December 1993 (AI).
D R, Louder, B A, Parkinson
openaire +2 more sources
Atomic-scale Insights into Electrode Surface Dynamics by High-Speed Scanning Probe Microscopy.
Chemistry, 2019Atomic-scale processes at electrode surfaces in liquid electrolytes are central elemental steps of electrochemical reactions. Detailed insights into the structure of these interfaces can be obtained by in situ scanning tunnelling and atomic force ...
O. Magnussen
semanticscholar +1 more source
Engineering Science and Education Journal, 1992
The article describes a range of microscopy techniques which are based on scanning a sharp tip over a surface. With such techniques it is possible both to image surfaces to atomic resolution, and to perform local property measurements to a resolution determined by the nature of the tip–surface interaction.
M.E. Welland +3 more
openaire +1 more source
The article describes a range of microscopy techniques which are based on scanning a sharp tip over a surface. With such techniques it is possible both to image surfaces to atomic resolution, and to perform local property measurements to a resolution determined by the nature of the tip–surface interaction.
M.E. Welland +3 more
openaire +1 more source