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High-Resolution Extreme Ultraviolet Microscopy: Imaging of Artificial and Biological Specimens with Laser-Driven Ultrafast XUV Sources
Michael Werner Zurch
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Description for High-Resolution Extreme Ultraviolet Microscopy: Imaging of Artificial and Biological Specimens with Laser-Driven Ultrafast XUV Sources
Hardback. Series: Springer Theses. Num Pages: 127 pages, 14 black & white illustrations, 30 colour illustrations, biography. BIC Classification: PDND; PNFS; TTBM. Category: (P) Professional & Vocational. Dimension: 235 x 155 x 10. Weight in Grams: 391.
This thesis describes novel approaches and implementation of high-resolution microscopy in the extreme ultraviolet light regime. Using coherent ultrafast laser-generated short wavelength radiation for illuminating samples allows imaging beyond the resolution of visible-light microscopes. Michael Zurch gives a comprehensive overview of the fundamentals and techniques involved, starting from the laser-based frequency conversion scheme and its technical implementation as well as general considerations of diffraction-based imaging at nanoscopic spatial resolution. Experiments on digital in-line holography and coherent diffraction imaging of artificial and biologic specimens are demonstrated and discussed in this book. In the field of biologic imaging, a novel award-winning cell ... Read more
This thesis describes novel approaches and implementation of high-resolution microscopy in the extreme ultraviolet light regime. Using coherent ultrafast laser-generated short wavelength radiation for illuminating samples allows imaging beyond the resolution of visible-light microscopes. Michael Zurch gives a comprehensive overview of the fundamentals and techniques involved, starting from the laser-based frequency conversion scheme and its technical implementation as well as general considerations of diffraction-based imaging at nanoscopic spatial resolution. Experiments on digital in-line holography and coherent diffraction imaging of artificial and biologic specimens are demonstrated and discussed in this book. In the field of biologic imaging, a novel award-winning cell ... Read more
Product Details
Publisher
Springer International Publishing AG
Format
Hardback
Publication date
2014
Series
Springer Theses
Condition
New
Weight
381g
Number of Pages
127
Place of Publication
Cham, Switzerland
ISBN
9783319123875
SKU
V9783319123875
Shipping Time
Usually ships in 15 to 20 working days
Ref
99-15
About Michael Werner Zurch
Michael Zurch finished his diploma thesis in 2010 on optical induced damage in nanostructures at the Friedrich-Schiller-University Jena earning him the best diploma thesis award of the faculty. During his doctorate he contributed to eight peer-reviewed journal articles, first-authoring five of them. Furthermore, he contributed to two patents and more than a dozen conference presentations, winning an award at the ... Read more
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