3D microscopy by orbital radially modulated scan
In this work, we present an alternative imaging method based on the orbital scanning of a laser excitation beam around the object of interest. This technology is capable of producing tridimensional images of fluorescent structures with nanometrical resolution in a few milliseconds. The method relies...
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2018
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| Acceso en línea: | https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_18501168_v29_n1_p12_Zaza http://hdl.handle.net/20.500.12110/paper_18501168_v29_n1_p12_Zaza |
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paper:paper_18501168_v29_n1_p12_Zaza2025-07-30T19:05:02Z 3D microscopy by orbital radially modulated scan Fluorescence Microscopy Single particle tracking In this work, we present an alternative imaging method based on the orbital scanning of a laser excitation beam around the object of interest. This technology is capable of producing tridimensional images of fluorescent structures with nanometrical resolution in a few milliseconds. The method relies on the fact that when the excitation beam is near a fluorescent object, the emitted light from the object depends on the distance between its surface and the excitation beam. By modulating the distance between the beam and the object and taking into account the nonlinearity of the excitation intensity profile, it is possible to obtain an oscillating response whose amplitude depends only on the distance to the surface of the object. Given the fact that the excitation beam is always near the structure of interest, it is possible to measure moving specimens. Here, we present tridimensional reconstructions of Arabidopsis Thaliana roots which are ~ 50 μm in length and ~ 5 μm in diameter. © 2018, Centro de Investigaciones en Laseres y Aplicaciones. All rights reserved. 2018 https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_18501168_v29_n1_p12_Zaza http://hdl.handle.net/20.500.12110/paper_18501168_v29_n1_p12_Zaza |
| institution |
Universidad de Buenos Aires |
| institution_str |
I-28 |
| repository_str |
R-134 |
| collection |
Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) |
| topic |
Fluorescence Microscopy Single particle tracking |
| spellingShingle |
Fluorescence Microscopy Single particle tracking 3D microscopy by orbital radially modulated scan |
| topic_facet |
Fluorescence Microscopy Single particle tracking |
| description |
In this work, we present an alternative imaging method based on the orbital scanning of a laser excitation beam around the object of interest. This technology is capable of producing tridimensional images of fluorescent structures with nanometrical resolution in a few milliseconds. The method relies on the fact that when the excitation beam is near a fluorescent object, the emitted light from the object depends on the distance between its surface and the excitation beam. By modulating the distance between the beam and the object and taking into account the nonlinearity of the excitation intensity profile, it is possible to obtain an oscillating response whose amplitude depends only on the distance to the surface of the object. Given the fact that the excitation beam is always near the structure of interest, it is possible to measure moving specimens. Here, we present tridimensional reconstructions of Arabidopsis Thaliana roots which are ~ 50 μm in length and ~ 5 μm in diameter. © 2018, Centro de Investigaciones en Laseres y Aplicaciones. All rights reserved. |
| title |
3D microscopy by orbital radially modulated scan |
| title_short |
3D microscopy by orbital radially modulated scan |
| title_full |
3D microscopy by orbital radially modulated scan |
| title_fullStr |
3D microscopy by orbital radially modulated scan |
| title_full_unstemmed |
3D microscopy by orbital radially modulated scan |
| title_sort |
3d microscopy by orbital radially modulated scan |
| publishDate |
2018 |
| url |
https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_18501168_v29_n1_p12_Zaza http://hdl.handle.net/20.500.12110/paper_18501168_v29_n1_p12_Zaza |
| _version_ |
1840325710867070976 |