Vibration measurements on smart electronic structures by means of laser techniques

2005 ◽  
Author(s):  
Norbert Ruemmler ◽  
Rene Schnitzer ◽  
Bernd Michel ◽  
Juergen Auersperg ◽  
Eberhard Kaulfersch
Keyword(s):  
Electronic Structures ◽  
Vibration Measurements ◽  
Laser Techniques

Recent progress in accurate vibration measurements by laser techniques

2006 ◽  
Author(s):  
Hans-Jürgen von Martens ◽  
Thomas Bruns ◽  
Angelika Täubner ◽  
Wolfgang Wabinski ◽  
Uwe Göbel
Keyword(s):  
Recent Progress ◽  
Vibration Measurements ◽  
Laser Techniques

Vibration measurements by laser techniques on rotating micro-tools

2012 ◽  
Author(s):  
Giorgio Capelli ◽  
Mauro Benedetti ◽  
Francesco Bonelli ◽  
Stefano Gerussi ◽  
Michele Norgia ◽  
...  
Keyword(s):  
Vibration Measurements ◽  
Laser Techniques ◽  
Micro Tools

Introduction: vibration measurements by laser techniques

Measurement ◽  
2004 ◽  
Vol 35 (2) ◽  
pp. 161-162
Author(s):  
Enrico Primo Tomasini
Keyword(s):  
Vibration Measurements ◽  
Laser Techniques

The Nature of Oxide Surfaces: Topographic and Electronic Structure

1993 ◽  
Vol 51 ◽  
pp. 966-967
Author(s):  
Dawn A. Bonnell ◽  
Yong Liang
Keyword(s):  
Transition Metal Oxides ◽  
Electronic Structures ◽  
Recent Progress ◽  
Spatial Localization ◽  
Level Of Detail ◽  
Scanning Tunneling ◽  
Oxide Surfaces ◽  
Tunneling Microscopy ◽  
Considerable Effort ◽  
Complete Understanding

Recent progress in the application of scanning tunneling microscopy (STM) and tunneling spectroscopy (STS) to oxide surfaces has allowed issues of image formation mechanism and spatial resolution limitations to be addressed. As the STM analyses of oxide surfaces continues, it is becoming clear that the geometric and electronic structures of these surfaces are intrinsically complex. Since STM requires conductivity, the oxides in question are transition metal oxides that accommodate aliovalent dopants or nonstoichiometry to produce mobile carriers. To date, considerable effort has been directed toward probing the structures and reactivities of ZnO polar and nonpolar surfaces, TiO2 (110) and (001) surfaces and the SrTiO3 (001) surface, with a view towards integrating these results with the vast amount of previous surface analysis (LEED and photoemission) to build a more complete understanding of these surfaces. However, the spatial localization of the STM/STS provides a level of detail that leads to conclusions somewhat different from those made earlier.

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