Titlebook: Ultrafast Biophotonics; P. Vasa,D. Mathur Book 2016 Springer International Publishing Switzerland 2016 Biological imaging and microscopy.D

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Nonlinear Microscopy,oton excitation. The use of a femtosecond laser permits high enough incident power levels for nonlinear effects to occur efficiently while, at the same time, being low enough to ensure sample integrity. Furthermore, the use of infrared light enables greater depth penetration, an important considerat

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Ultrafast Single-Molecule Spectroscopy,e-resolved experiments continue to provide useful information about ensemble-averaged properties, ultrafast single molecule techniques are able to track the photodynamics of . molecules, revealing their unique transient intermediates. This chapter presents an overview of single molecule techniques l

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Biophotonics in Ultrashort, Intense Optical Fields, consider both “laser-matter” and “matter-laser” interactions from the viewpoint of biophotonic applications. Propagation of intense light through matter gives rise to visually spectacular phenomena like supercontinuum generation and filamentation. Such phenomena have been used to quantitatively pro

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Ultrafast Quantum Mechanical Processes in Plants,ature. However, ultrafast time-resolved spectroscopic investigations have yielded evidence to the contrary, suggesting that long-range quantum mechanical effects do occur in biological systems under physiological conditions. This chapter addresses some of the topics relevant to the functional role p

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Ultrafast Quantum Mechanical Processes in Animals,r, radical pair production and .-.-isomerizations. Such reactions are driven by quantum mechanical processes, which contribute to making them fast, efficient and robust. This chapter presents an overview of the current understanding of ultrafast interactions involved in primary light-initiated react

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Mimicking Ultrafast Biological Systems,devices that mimic natural systems possessing quantum-enhanced efficiency and adaptability. The importance of quantum effects in these functionalities has recently been revealed by ultrafast spectroscopy. We discuss the role of ultrafast biophotonics in developing biomimetic devices whose quantum pr

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Book 2016 and processes. The spectrum reaches from time-resolved imaging and multiphoton microscopy to cancer therapy and studies of DNA damage. The book displays interdisciplinary research at the interface of physics and biology. Emerging topics on the horizon are also discussed, like the use of squeezed li

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Mimicking Ultrafast Biological Systems, has recently been revealed by ultrafast spectroscopy. We discuss the role of ultrafast biophotonics in developing biomimetic devices whose quantum properties can be “engineered” for applications in light-harvesting, solar energy conversion, magnetic field sensing, photonic devices and single-biomolecular electronics.