Examining the Casimir puzzle with an upgraded AFM-based technique and advanced surface cleaning

摘要

We performed measurements of the gradient of the Casimir force between Au-coated surfaces of a sphere and a plate by means of a significantly upgraded dynamic atomic force microscope (AFM)-based technique. By introducing a combined cleaning procedure of interior surfaces of the vacuum chamber and the test bodies by means of UV light and Ar ions, we reached higher vacuum and eliminated the role of electrostatic patches. Furthermore, the use of a much softer cantilever allowed a sixfold decrease of the systematic error in measuring the force gradient. The experimental data are compared with the theoretical predictions of the Lifshitz theory taking into account corrections due to the inaccuracy of the proximity force approximation and that due to surface roughness. It is shown that the theoretical approach accounting for the relaxation properties of free electrons is excluded by the data up to a larger than previous sphere-plate separation of 820 nm, whereas an alternative approach is found in very good agreement with the data. The importance of these results in connection with the foundations of quantum statistical physics is discussed.