FIELD: measuring devices.
SUBSTANCE: invention relates to measurement equipment and can be used in scanning probe microscopy and atomic force microscopy for diagnosing and studying of nano-sized structures. According to the invention, a cantilever is connected to a probing needle which top is fixed in one of the cone-shaped nanopores of the glass sphere, containing an equally spaced along its surface an array of ordered by diameter cone-shaped nanopores, filled with nonradiative and radiative quantum dots of the core-shell structure with calibrated fluorescence time intervals with various discrete radiation spectra and different radiation time intervals, with the help of a combination of combinations of which the general package of spectral portraits of radiation and their sequence are programmed.
EFFECT: technical result is the possibility of simultaneous combination of electromagnetic multi wave with a programmable dynamic of changes in radiation exposure spectra with measurement of the mechanical reaction (elasticity modulus) to this stimulating action at one common point of the surface of the object of diagnostics without affecting the adjoining sections.
1 cl, 6 dwg
