Title :
Accurate New Methodology in Scanning Thermal Microscopy
Author :
Saci, Abdelhak ; Battaglia, Jean-Luc ; De, Indryaush
Author_Institution :
Inst. de Mec. et d´Ing., Univ. of Bordeaux, Talence, France
Abstract :
In this study, we present a scanning thermal microscopy experiment with the probe working under vacuum allowing a spatial resolution of 25 nm. These measurements are made with a new four-contacts resistive probe, well suited for the 3ω measurement technique. A system identification approach in the out-of-contact mode provides the thermal model of the probe. This approach does not require knowledge of the geometrical and thermal properties of the probe. This sensor model is integrated into a comprehensive global model taking into account the heat transfer within the investigated surface. We show that the contact resistance and the radius of the contact area at the probe-material interface can be identified and are independent of the nature of the probed material when thermal conductivity ranges from 0.2 to 41 W · m-1 · K-1.
Keywords :
atomic force microscopy; thermal analysis; atomic force microscope; contact resistance; four-contact resistive probe; geometrical property; heat transfer; out-of-contact mode; probe-material interface; scanning thermal microscopy; thermal conductivity range; Scanning probe microscopy; Temperature measurement; Thermal conductivity; Thermal resistance; 3! measurement; 3?? measurement; Scanning thermal microscopy; calibration; four points probe;
Journal_Title :
Nanotechnology, IEEE Transactions on
DOI :
10.1109/TNANO.2015.2476339
