Applied Scanning Probe Methods IV: Industrial Applications (NanoScience and Technology) - Hardcover

 
9783540269120: Applied Scanning Probe Methods IV: Industrial Applications (NanoScience and Technology)
Hardcover
ISBN 10: 3540269126 ISBN 13: 9783540269120
Publisher: Springer, 2006

Synopsis

The Nobel Prize of 1986 on Sc- ningTunnelingMicroscopysignaled a new era in imaging. The sc- ning probes emerged as a new - strument for imaging with a p- cision suf?cient to delineate single atoms. At ?rstthere were two -the ScanningTunnelingMicroscope,or STM,andtheAtomicForceMic- scope, or AFM. The STM relies on electrons tunneling between tip and sample whereas the AFM depends on the force acting on the tip when itwasplacednearthesample.These were quickly followed by the M- netic Force Microscope, MFM, and the Electrostatic Force Microscope, EFM.TheMFMwillimageasinglemagneticbitwithfeaturesassmallas10nm. WiththeEFMonecanmonitorthechargeofasingleelectron.Prof.PaulHansma atSantaBarbaraopenedthedoorevenwiderwhenhewasabletoimagebiological objects in aqueous environments. At this point the sluice gates were opened and amultitudeofdifferentinstrumentsappeared. There are signi?cant differences between the Scanning Probe Microscopes or SPM, and others such as the Scanning Electron Microscope or SEM. The probe microscopes do not require preparation of the sample and they operate in ambient atmosphere, whereas, the SEM must operate in a vacuum environment and the sample must be cross-sectioned to expose the proper surface. However, the SEM canrecord3Dimage andmovies, featuresthatarenotavailable withthescanning probes. TheNearFieldOpticalMicroscopeorNSOMisalsomemberofthisfamily.At thistimetheinstrumentsuffersfromtwolimitations;1)mostoftheopticalenergy is lost as it traverses the cut-off region of the tapered ?ber and 2) the resolution is insuf?cient for many purposes. We are con?dent that NSOM's with a reasonable opticalthroughputandaresolutionof10nmwillsoonappear.TheSNOMwillthen enterthemainstreamofscanningprobes. VI Foreword In the Harmonic Force Microscope or HFM, the cantilever is driven at the resonantfrequencywiththeamplitudeadjustedsothatthetipimpactsthesampleon each cycle. Theforcesbetween tipandsample generate multiple harmonics inthe motionofthecantilever.Thestrengthoftheseharmonicscanbeusedtocharacterize thephysicalpropertiesofthesurface.

"synopsis" may belong to another edition of this title.

Review

From the reviews:

"The editors have done a good job in making the various chapters quite readable and most of the chapters are well written on a level that will be accessible to most readers. ... As is usually the case with Springer books, these volumes have been beautifully printed, illustrated, and nicely bound for long term durability." (Gary J. Long & Fernande Grandjean, Physicalia Magazine, Vol. 29 (4), 2007)

Synopsis

Volumes II, III and IV examine the physical and technical foundation for recent progress in applied near-field scanning probe techniques, and build upon the first volume published in early 2004. The field is progressing so fast that there is a need for a second set of volumes to capture the latest developments. It constitutes a timely comprehensive overview of SPM applications, now that industrial applications span topographic and dynamical surface studies of thin-film semiconductors, polymers, paper, ceramics, and magnetic and biological materials. Volume II introduces scanning probe microscopy, including sensor technology, Volume III covers the whole range of characterization possibilities using SPM and Volume IV offers chapters on uses in various industrial applications. The international perspective offered in these three volumes - which belong together - contributes further to the evolution of SPM techniques.

"About this title" may belong to another edition of this title.

Publisher
Springer
Publication date
2006
Language
English
ISBN 10 
3540269126
ISBN 13 
9783540269120
Binding
Hardcover
Number of pages
328
Editor
Bhushan Bharat, Fuchs Harald