FIELD: measuring equipment.
SUBSTANCE: invention relates to a measuring technique and can be used in atomic force microscopy for diagnosing nanoscale structures. Essence of the invention lies in the fact that the magnetically transparent cantilever is connected to an electrically conductive magnetically transparent probe needle, the top of which is movably connected by means of two nested carbon nanotubes with a magnetically transparent detachable and autonomously functioning glass sphere with through nanometer pores filled with quantum dots and magnetic nanoparticles with the same orientation of the core-shell structure poles. Remote control of the excitation of the quantum dots of the core-shell structure and their autonomous movement along the Z coordinate when scanning the side walls of the nanochambers of the object being diagnosed is carried out with the help of two external counter-directed synchronized electromagnetic fields.
EFFECT: technical result is the ability to scan nanochambers at the Z coordinate, the depth of which is greater than the length of the probe needle, with simultaneous combination of point thermal and electromagnetic with optical wavelength effects on the walls of nanochamber with simultaneous measurement of electrical characteristics of this stimulating effect at one point on the surface of the object of diagnosis with the coordinates X, Y, without affecting the neighboring areas.
1 cl, 3 dwg
