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Optical Halo: A Proof of Concept for a New Broadband Microrheology Tool
Cita
Ramírez García, Jorge 
ORCID: https://orcid.org/0000-0002-8946-3786, Gibson, Graham ORCID: https://orcid.org/0000-0003-0051-8654 and Tassieri, Manlio ORCID: https://orcid.org/0000-0002-6807-0385
(2024).
Optical Halo: A Proof of Concept for a New Broadband Microrheology Tool.
"Micromachines", v. 15
(n. 7);
p. 889.
ISSN 2072666X.
https://doi.org/10.3390/mi15070889.
ORCID: https://orcid.org/0000-0002-8946-3786, Gibson, Graham ORCID: https://orcid.org/0000-0003-0051-8654 and Tassieri, Manlio ORCID: https://orcid.org/0000-0002-6807-0385
(2024).
Optical Halo: A Proof of Concept for a New Broadband Microrheology Tool.
"Micromachines", v. 15
(n. 7);
p. 889.
ISSN 2072666X.
https://doi.org/10.3390/mi15070889.
Descripción
| Título: | Optical Halo: A Proof of Concept for a New Broadband Microrheology Tool |
|---|---|
| Autor/es: |
|
| Tipo de Documento: | Artículo |
| Título de Revista/Publicación: | Micromachines |
| Fecha: | 7 Julio 2024 |
| ISSN: | 2072666X |
| Volumen: | 15 |
| Número: | 7 |
| Materias: | |
| ODS: | |
| Palabras Clave Informales: | Complex fluids; Concentrate Isotropic Solutions; Dynamic; Force; Living Cells; Mechanics; Microrheology; Optical Tweezers; Particle; Rheology; Semiflexible Polymers; Tweezers; Viscoelasticity |
| Escuela: | E.T.S.I. Industriales (UPM) |
| Departamento: | Ingeniería Química Industrial y del Medio Ambiente |
| Licencias Creative Commons: | Reconocimiento |
Resumen
Microrheology, the study of material flow at micron scales, has advanced significantly since Robert Brown's discovery of Brownian motion in 1827. Mason and Weitz's seminal work in 1995 established the foundation for microrheology techniques, enabling the measurement of viscoelastic properties of complex fluids using light-scattering particles. However, existing techniques face limitations in exploring very slow dynamics, crucial for understanding biological systems. Here, we present a proof of concept for a novel microrheology technique called "Optical Halo", which utilises a ring-shaped Bessel beam created by optical tweezers to overcome existing limitations. Through numerical simulations and theoretical analysis, we demonstrate the efficacy of the Optical Halo in probing viscoelastic properties across a wide frequency range, including low-frequency regimes inaccessible to conventional methods. This innovative approach holds promise for elucidating the mechanical behaviour of complex biological fluids.
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Gobierno de España
PID2022-136919NB-C32
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| ID de Registro: | 89574 |
|---|---|
| Identificador DC: | https://oa.upm.es/89574/ |
| Identificador OAI: | oai:oa.upm.es:89574 |
| URL Portal Científico: | https://portalcientifico.upm.es/es/ipublic/item/10266310 |
| Identificador DOI: | 10.3390/mi15070889 |
| URL Oficial: | https://www.mdpi.com/2072-666X/15/7/889 |
| Depositado por: | iMarina Portal Científico |
| Depositado el: | 20 Jun 2025 05:54 |
| Ultima Modificación: | 20 Jun 2025 05:54 |
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