Publication: STED properties of Ce^3+, Tb^3+, and Eu^3+ doped inorganic scintillators
STED properties of Ce^3+, Tb^3+, and Eu^3+ doped inorganic scintillators
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Alekhin, M. S., Renger, J., Kasperczyk, M., Douissard, P. A., Martin, T., Zorenko, Y., Vasil’ev, D. A., Stiefel, M., Novotny, L., & Stampanoni, M. (2017). STED properties of Ce^3+, Tb^3+, and Eu^3+ doped inorganic scintillators. Optics Express, 25(2), 1251. https://doi.org/10.1364/OE.25.001251
Abstract
Abstract
Abstract
Scintillator-based X-ray imaging is a powerful technique for noninvasive real-space microscopic structural investigation such as synchrotron-based computed tomography. The resolution of an optical image formed by scintillation emission is fundamentally diffraction limited. To overcome this limit, stimulated scintillation emission depletion (SSED) X-ray imaging, based on stimulated emission depletion (STED) microscopy, has been recently developed. This technique imposes new requirements on the scintillator material: efficient de-excita
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Creators (Authors)
- Alekhin, Mikhail S
- Renger, Jan
- Kasperczyk, Mark
- Douissard, Paul A
- Martin, Thierry
- Zorenko, Yuryi
- Vasil'ev, Dmitry A
- Stiefel, Michael
- Novotny, Lukas
- Stampanoni, Marco
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Citations
Alekhin, M. S., Renger, J., Kasperczyk, M., Douissard, P. A., Martin, T., Zorenko, Y., Vasil’ev, D. A., Stiefel, M., Novotny, L., & Stampanoni, M. (2017). STED properties of Ce^3+, Tb^3+, and Eu^3+ doped inorganic scintillators. Optics Express, 25(2), 1251. https://doi.org/10.1364/OE.25.001251
