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the field of optics and photonics. The team is working in the Photonic axis and is developing novel optical imaging techniques for biology. In particular, Pierre Bon is developing novel label imaging
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accessible through optical imaging. In this context, the team is developing a groundbreaking cellular-resolution imaging technology, the AO-RSO (Adaptive Optics Rolling-Slit Ophthalmoscope). This system
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professor. The group has three research tracks: freeform design, imaging optics and improved direct methods; for more details see https://martijna.win.tue.nl/Optics/ . The following mathematical disciplines
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are seeking a Ph.D. student to join our multidisciplinary team developing a radical solution for better detection and treatment that uses ultra-thin snake-like robots and advanced optical imaging techniques
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optics, with a focus on quantum channel discrimination for high-resolution spectroscopy and AC field sensing. The project aims to develop theoretical frameworks for distinguishing closely related quantum
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of the project: The project focuses on advanced biophotonics and optoelectronics, with particular emphasis on techniques used for optical imaging of the human retina. It centers on two-photon fluorescence
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of the project: The project focuses on advanced biophotonics and optoelectronics, with particular emphasis on techniques used for optical imaging of the human retina. It centers on two-photon fluorescence
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in quantum information theory and quantum optics, with a focus on quantum channel discrimination for high-resolution spectroscopy and AC field sensing. The project aims to develop theoretical
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. the materials have optimal acoustic impedance and attenuation characteristics; additionally, a desirable characteristic is optical transparency to allow for validation testing by optical imaging. Information
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with an increasing degree of autonomy as skills and experience develop. The Research Assistant will contribute to a specialised research program in quantum information theory and quantum optics, with a