Overview
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Read the articleAUTHORS
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Jean-Claude RIVOAL: Professor Emeritus at Pierre-et-Marie-Curie University - Physical Optics Laboratory (CNRS UPR A0005)
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Christian FRÉTIGNY: CNRS Research Director, Laboratory of Physical Chemistry of Polymers and Dispersed Media (CNRS UMR 7615)
INTRODUCTION
Atomic force microscopy (AFM) was introduced in 1986 by G. Binnig, C.F. Quate and C. Gerber. Gerber
AFM is based on the measurement of forces between a thin stylus and the surface under study. The force transducer is a leaf spring (stylet) embedded at one end and fitted with a tip at the other, also known as a "cantilever". Interacting forces modify the static or oscillating deflection or torsion of the stylus. In today's force microscopes, cantilever deformations are most often measured by deflecting a light beam ("laser diode") reflected by the tip of the stylet, a method proposed as early as 1988 by G. Meyer and N. Amer
The development of this local probe method has been rapid, both in university laboratories and in industry. Control tasks on production lines are routinely carried out using this relatively simple-to-use device. Most users are looking to obtain characteristic surface shapes or sizes; by scanning the sample under the "cantilever", the desired AFM image is obtained. However, it soon became apparent that the same instrument could also be used to provide original "nanometer physics" situations.
In the first part, the instrumentation is described and the various operating modes (contact, resonant, tapping, friction, etc.) are presented in general terms. Emphasizing the instrument's potential, the fundamentals of the main methods used are explained, without being exhaustive. In the second part, physical applications in various fields are presented.
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Atomic force microscopy (AFM)
Bibliography
References
Manufacturers, constructors (non-exhaustive list)
Thermal mode microscope TA2990, TA Instruments
http://www.tainstruments.com/products/mta.html
BNM-LNE Nanometrology Project...
Organizations
French national metrology and testing laboratory (LNE)
Russian Society of Scanning Probe Microscopy and Nanotechnology
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