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Multiphoton Microscopy and Ultrafast Spectroscopy: Imaging meets Quantum

Descripción del proyecto

Los microscopios del mañana

La microscopía óptica basada en el láser es un potente método para obtener imágenes de alta resolución escaneando objetos con un láser. La detección y cuantificación de las biomoléculas de tejidos en la microscopía se realiza mediante la tinción de muestras, que puede crear artefactos. El principal objetivo del proyecto MUSIQ, financiado con fondos europeos, es desarrollar la siguiente generación de microscopios ópticos con capacidad de obtener imágenes cuantitativas a nivel de célula única. El proyecto ha seleccionado a investigadores noveles para que trabajen en la incorporación de la espectroscopia y de modalidades coherentes de dispersión de Raman que permitan la obtención de imágenes ópticas de biomoléculas sin marcaje.

Objetivo

In the quest to decipher the chain of life from molecules to cells, the biophysical questions being asked increasingly demand techniques that are capable of identifying specific biomolecules in their native environment at the smallest possible scale, and measuring their interactions quantitatively without perturbing the system under observation. Laser-based optical microscopy is a key technology to drive this progress in the 21st century. Still, many challenges remain in particular toward i) achieving imaging with biomolecular specificity without the artefacts from sample staining, ii) quantitative imaging, and iii) single molecule sensitivity. Progress toward biomolecular specificity at very high temporal resolution has been brought by the development of ultrafast two-dimensional electronic spectroscopy, able to address the importance of quantum coherences with the potential to unravel the fundamental machinery of Nature. Yet, measuring quantum phenomena with an optical microscope is technically challenging, and far from real-world biological applications. MUSIQ is designed as an innovative research and training network, where we will recruit 15 Early Stage Researchers to work toward the central ambitious goal of developing the next-generation optical microscopy exploiting quantum coherent nonlinear phenomena. The network brings together a unique team of 7 world-leading academics and 6 high tech companies at the forefront of optical microscopy and ultrafast laser technology developments merged with fundamental understanding of coherent light-matter interaction phenomena, development of quantitative image analysis tools, and biomedical/pharmaceutical real-world applications. MUSIQ will establish an intersectoral training and research programme at the physics/chemistry/life science interface with partners from 9 European countries, aimed at creating the next generation of skilled well-connected scientists that will pioneer the ‘quantum microscopes of tomorrow’.

Coordinador

CARDIFF UNIVERSITY
Aportación neta de la UEn
€ 909 517,68
Dirección
NEWPORT ROAD 30 36
CF24 0DE Cardiff
Reino Unido

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Región
Wales East Wales Cardiff and Vale of Glamorgan
Tipo de actividad
Higher or Secondary Education Establishments
Enlaces
Coste total
€ 909 517,68

Participantes (9)

Socios (6)