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Main Authors: Anghinoni, B., Malacarne, L. C., Lukasievicz, G. V. B., Lendl, B., Baesso, M. L., Astrath, N. G. C.
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2506.09964
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_version_ 1866909747457818624
author Anghinoni, B.
Malacarne, L. C.
Lukasievicz, G. V. B.
Lendl, B.
Baesso, M. L.
Astrath, N. G. C.
author_facet Anghinoni, B.
Malacarne, L. C.
Lukasievicz, G. V. B.
Lendl, B.
Baesso, M. L.
Astrath, N. G. C.
contents The optical force density acting in transparent dielectric media due to short laser excitation is theoretically analyzed. For typical laser pulses with picosecond duration, the momentum component of the optical force becomes of the same order of magnitude as the stress component, enhancing the overall optomechanical effects. Simulations of the optically-induced surface displacements in fused silica glass are also presented. With careful choice of realistic simulation parameters, dispersive and nonlinear effects were shown to be suppressed and displacements of 50 pm were found for single-pulse excitation with 100 fs duration, where the momentum component of the force is dominant. A possibility of measuring these displacements with piezo-electric detection is also discussed, providing a way to attain spatiotemporal characterization of the optical momentum force in continuum media. Such a description would significantly advance our current knowledge on the behavior of optical forces, potentially contributing to more versatile optomechanical applications, while also clarifying the ongoing Abraham-Minkowski fundamental problem on the momentum transferred by light.
format Preprint
id arxiv_https___arxiv_org_abs_2506_09964
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Optical force density and surface displacements in transparent dielectrics due to non-ionizing sub-picosecond laser excitation
Anghinoni, B.
Malacarne, L. C.
Lukasievicz, G. V. B.
Lendl, B.
Baesso, M. L.
Astrath, N. G. C.
Optics
The optical force density acting in transparent dielectric media due to short laser excitation is theoretically analyzed. For typical laser pulses with picosecond duration, the momentum component of the optical force becomes of the same order of magnitude as the stress component, enhancing the overall optomechanical effects. Simulations of the optically-induced surface displacements in fused silica glass are also presented. With careful choice of realistic simulation parameters, dispersive and nonlinear effects were shown to be suppressed and displacements of 50 pm were found for single-pulse excitation with 100 fs duration, where the momentum component of the force is dominant. A possibility of measuring these displacements with piezo-electric detection is also discussed, providing a way to attain spatiotemporal characterization of the optical momentum force in continuum media. Such a description would significantly advance our current knowledge on the behavior of optical forces, potentially contributing to more versatile optomechanical applications, while also clarifying the ongoing Abraham-Minkowski fundamental problem on the momentum transferred by light.
title Optical force density and surface displacements in transparent dielectrics due to non-ionizing sub-picosecond laser excitation
topic Optics
url https://arxiv.org/abs/2506.09964