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Optical imaging of biological systems has undergone spectacular development in recent years, producing a quantity and a quality of information that, just twenty years ago, could only be dreamed of by physicists, biologists and physicians. Unconventional imaging systems provide access to physical quantities - phase, absorption, optical index, the polarization property of a wave or the chemical composition of an object - not accessible to conventional measurement systems. To achieve this, these systems use special optical setups and specific digital image processing to reconstruct physical…mehr

Produktbeschreibung
Optical imaging of biological systems has undergone spectacular development in recent years, producing a quantity and a quality of information that, just twenty years ago, could only be dreamed of by physicists, biologists and physicians. Unconventional imaging systems provide access to physical quantities - phase, absorption, optical index, the polarization property of a wave or the chemical composition of an object - not accessible to conventional measurement systems. To achieve this, these systems use special optical setups and specific digital image processing to reconstruct physical quantities. This field is also known as computational imaging. This book presents various non-conventional imaging modalities developed for the biomedical field: wave front analysis imaging, digital holography/tomography, optical nanoscopy, endoscopy and singlesensor imaging. Experimental setups and reconstruction algorithms are presented for each modality.

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Autorenporträt
Corinne Fournier is Assistant Professor at Université Jean Monnet, France, and member of the Laboratoire Hubert Curien. She works in unconventional imaging and her research interests include the codesign (optics/image processing) of instruments, particularly interferometric microscopy applied to the biomedical field. Olivier Haeberlé is Professor at the Université de Haute-Alsace, France, and member of the Institut de Recherche en Informatique, Mathématiques, Automatique et Signal. His research interests include image formation mechanisms and new label-free microscopy techniques for cell imaging based on holography.