Accelerated Nano-Optical Imaging through Sparse Sampling

Accelerated Nano-Optical Imaging through Sparse Sampling

The integration time and signal-to-noise ratio are inextricably linked when performing scanning probe microscopy based on raster scanning. This often yields a large lower bound on the measurement time, for example, in nano-optical imaging experiments performed using a scanning near-field optical mic...

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Veröffentlicht in:Nano letters 2024-02, Vol.24 (7), p.2149-2156
Hauptverfasser: Fu, Matthew, Xu, Suheng, Zhang, Shuai, Ruta, Francesco L., Pack, Jordan, Mayer, Rafael A., Chen, Xinzhong, Moore, Samuel L., Rizzo, Daniel J., Jessen, Bjarke S., Cothrine, Matthew, Mandrus, David G., Watanabe, Kenji, Taniguchi, Takashi, Dean, Cory R., Pasupathy, Abhay N., Bisogni, Valentina, Schuck, P. James, Millis, Andrew J., Liu, Mengkun, Basov, D. N.
Format: Artikel
Sprache:eng
Schlagworte:
gaussian process regression
MATERIALS SCIENCE
polaritons
scanning near-field optical microscopy (snom)
sparse sampling
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Zusammenfassung:The integration time and signal-to-noise ratio are inextricably linked when performing scanning probe microscopy based on raster scanning. This often yields a large lower bound on the measurement time, for example, in nano-optical imaging experiments performed using a scanning near-field optical microscope (SNOM). Here, we utilize sparse scanning augmented with Gaussian process regression to bypass the time constraint. We apply this approach to image charge-transfer polaritons in graphene residing on ruthenium trichloride (α-RuCl3) and obtain key features such as polariton damping and dispersion. Critically, nano-optical SNOM imaging data obtained via sparse sampling are in good agreement with those extracted from traditional raster scans but require 11 times fewer sampled points. As a result, Gaussian process-aided sparse spiral scans offer a major decrease in scanning time.
ISSN:1530-6984
1530-6992
DOI:10.1021/acs.nanolett.3c03733