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Autores principales: Monro, James A., Kingston, Andrew M., Paganin, David M.
Formato: Preprint
Publicado: 2024
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Acceso en línea:https://arxiv.org/abs/2411.19053
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author Monro, James A.
Kingston, Andrew M.
Paganin, David M.
author_facet Monro, James A.
Kingston, Andrew M.
Paganin, David M.
contents Ghost projection is the reversed process of computational classical ghost imaging that allows any desired image to be synthesized using a linear combination of illuminating patterns. Typically, physical attenuating masks are used to produce these illuminating patterns. A mask-free alternative form of ghost projection is explored here, where the illuminations are a set of caustic-laden diffraction patterns known as diffraction catastrophes. These are generated by focusing a coherent beam with spatially modulated phase having random Zernike-polynomial aberrations. We demonstrate, via simulation, that a suitable linear combination of such random focal-field intensity patterns can be used as a basis to synthesize arbitrary images. In our proof-of-concept ghost-projection synthesis, the positive weighting coefficients in the decomposition are proportional to exposure times for each focal-field diffraction catastrophe. Potential applications include dynamic on-demand beam shaping of focused fields, aberration correction and lithography.
format Preprint
id arxiv_https___arxiv_org_abs_2411_19053
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Ghost projection via focal-field diffraction catastrophes
Monro, James A.
Kingston, Andrew M.
Paganin, David M.
Optics
Ghost projection is the reversed process of computational classical ghost imaging that allows any desired image to be synthesized using a linear combination of illuminating patterns. Typically, physical attenuating masks are used to produce these illuminating patterns. A mask-free alternative form of ghost projection is explored here, where the illuminations are a set of caustic-laden diffraction patterns known as diffraction catastrophes. These are generated by focusing a coherent beam with spatially modulated phase having random Zernike-polynomial aberrations. We demonstrate, via simulation, that a suitable linear combination of such random focal-field intensity patterns can be used as a basis to synthesize arbitrary images. In our proof-of-concept ghost-projection synthesis, the positive weighting coefficients in the decomposition are proportional to exposure times for each focal-field diffraction catastrophe. Potential applications include dynamic on-demand beam shaping of focused fields, aberration correction and lithography.
title Ghost projection via focal-field diffraction catastrophes
topic Optics
url https://arxiv.org/abs/2411.19053