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200 10$aChiral dynamics$b[electronic resource] $etheory and experiment III : Jefferson Laboratory, USA, July 17-22, 2000 /$feditors, Aron M. Bernstein, Jose? L. Goity, Ulf-G. Meissner
210   $aRiver Edge, NJ $cWorld Scientific$dc2001
215   $a1 online resource (xix, 473 p. ) $cill
225 1 $aProceedings from the Institute for Nuclear Theory ;$vv. 11
300   $aBibliographic Level Mode of Issuance: Monograph
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320   $aIncludes bibliographical references.
327   $aPlenary session presentations -- Working group I. Goldstone-bosons -- Working group II. Goldstone-bosons nucleon -- Working group III. Few nucleons.
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200 10$aFar-Field Optical Nanoscopy /$fedited by Philip Tinnefeld, Christian Eggeling, Stefan W. Hell
205   $a1st ed. 2015.
210  1$aBerlin, Heidelberg :$cSpringer Berlin Heidelberg :$cImprint: Springer,$d2015.
215   $a1 online resource (340 p.)
225 1 $aSpringer Series on Fluorescence, Methods and Applications,$x1617-1306 ;$v14
300   $aDescription based upon print version of record.
311 08$a3-662-45546-3 
320   $aIncludes bibliographical references and index.
327   $aChristian Eggeling, Stefan W. Hell: STED Fluorescence Nanoscopy -- Ke Xu, Sang-Hee Shim, and Xiaowei Zhuang: Super-Resolution Imaging Through Stochastic Switching and Localization of Single Molecules: An Overview -- Markus Sauer: A Practical Guide to dSTORM: Super-Resolution Imaging with Standard Fluorescent Probes.- Matthew D. Lew, Steven F. Lee, Michael A. Thompson, Hsiao-lu D. Lee, and W. E. Moerner: Single-Molecule Photocontrol and Nanoscopy -- Susan Gayda, Per Niklas Hedde, Karin Nienhaus, and G. Ulrich Nienhaus: Probes for Nanoscopy: Fluorescent Proteins.- Dmytro A. Yushchenko and Marcel P. Bruchez: Tailoring Fluorescent Labels for Far-Field Nanoscopy -- Pedro F. Aramendia and Mariano L. Bossi: Probes for Nanoscopy: Photoswitchable Fluorophores -- Thorben Cordes, Jan Vogelsang, Christian Steinhauer, Ingo H. Stein, Carsten Forthmann, Andreas Gietl, Jürgen J. Schmied, Guillermo P. Acuna, Sebastian Laurien, Birka Lalkens, and Philip Tinnefeld: Far-Field Nanoscopy with Conventional Fluorophores: Photostability, Photophysics, and Transient Binding -- Gert De Cremer, Bert F. Sels, Dirk E. De Vos, Johan Hofkens, and Maarten B.J. Roeffaers: NASCA Microscopy: Super-Resolution Mapping of Chemical Reaction Centers -- Maximilian H. Ulbrich: Counting Molecules: Toward Quantitative Imaging.- Mario Brameshuber and Gerhard J. Schütz: In Vivo Tracking of Single Biomolecules: What Trajectories Tell Us About the Acting Forces.
330   $aThis book describes developments in the field of super-resolution fluorescence microscopy or nanoscopy. In 11 chapters, distinguished scientists and leaders in their respective fields describe different nanoscopy approaches, various labeling technologies, and concrete applications. The topics covered include the principles and applications of the most popular nanoscopy techniques STED and (f)PALM/STORM, along with advances brought about by fluorescent proteins and organic dyes optimized for fluorescence nanoscopy. Furthermore, the photophysics of fluorescent labels is addressed, specifically for improving their photoswitching capabilities. Important applications are also discussed, such as the tracking and counting of molecules to determine acting forces in cells, and quantitative cellular imaging, respectively, as well as the mapping of chemical reaction centers at the nano-scale. The 2014 Chemistry Nobel Prize® was awarded for the ground-breaking developments of super-resolved fluorescence microscopy. In this book, which was co-edited by one of the prize winners, readers will find the most recent developments in this field.
410  0$aSpringer Series on Fluorescence, Methods and Applications,$x1617-1306 ;$v14
606   $aNanochemistry
606   $aMicroscopy
606   $aBiophysics
606   $aBiophysics
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