Titlebook: Label-Free Super-Resolution Microscopy; Vasily Astratov Book 2019 Springer Nature Switzerland AG 2019 Label-free Imaging.Optical Nanoscopy

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GEST

Super-Resolution Imaging and Microscopy by Dielectric Particle-Lenses,py and others, have been reported. This chapter aims to provide an overall review of the technique including its background, fundamentals and key progresses. The outlook of the technique is finally discussed.

職業(yè)拳擊手

Interferometric Scattering (iSCAT) Microscopy and Related Techniques,has become a reality. We discuss the theory of interferometric detection and also issues relevant to achieving a high detection sensitivity?and speed. A showcase of numerous applications and avenues of novel research across various disciplines that iSCAT microscopy has opened up is also presented.

nugatory

Super-Resolution Microscopy Techniques Based on Plasmonics and Transformation Optics, in linear far-field microscopy by making use of recent progress in plasmonics, metamaterials and transformation optics. We will review theoretical foundations of these techniques and present our recent proof of principle experiments.

青春期

1618-7210 ution microscopy.Introduces also the important topic super-rThis book presents the advances in super-resolution microscopy in physics and biomedical optics for nanoscale imaging. In the last decade, super-resolved fluorescence imaging has opened new horizons in improving the resolution of optical mi

牲畜欄

Tomographic Diffractive Microscopy: Principles, Implementations, and Applications in Biology,limitations, through various examples of application for biological samples imaging. Perspectives, and challenges for this imaging modality, as well as some hints to address them, are finally presented in the conclusion.

使成整體

Quantitative Phase Imaging: Principles and Applications,the past one–two decades, the QPI field continues expanding and gaining popularity. It has found applications in many different fields, especially in biomedicine. In this chapter, we provide a review of the principles associated with this exciting field, with discussion focused on optical physics, experimental principles, and applications.

草本植物

Quantitative Phase Imaging: Principles and Applications,resulting image provides an objective measure of morphology and dynamics, in the absence of contrast agents. As tremendous advances have been made in the past one–two decades, the QPI field continues expanding and gaining popularity. It has found applications in many different fields, especially in

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