SCANNING PROBE OF AN ATOMICALLY POWER MICROSCOPE WITH A SEPARABLE TELEO-CONTROLLED NANOCOMPOSITE RADIATING ELEMENT DOPED WITH QUANTUM DOTS, APON-CONVERTER OF NON-MAGNET AND MAGNETOS

摘要

The utility model relates to measuring technique and can be used in atomic force microscopy to diagnose nanoscale structures. The essence of the utility model is that the scanning probe contains a cantilever connected to a probe needle threaded and rigidly fixed in one of the through nanopores of the polymer sphere of larger diameter with up-converting nanoparticles and quantum dots of the core-shell structure, and the tip of the probe needle emerging from the polymer spheres of larger diameter, movably connected using two embedded carbon nanotubes with a detachable and autonomously functioning polymer sphere of small diameter with through nanopores with onus-shaped inputs filled with quantum dots, inverting nanoparticles and magnetic nanoparticles of the core-shell structure. Remote control of the excitation of converting nanoparticles, exciting nearby quantum dots of the core-shell structure and their autonomous movement along the Z coordinate, when scanning the side walls of nanowells, is carried out using two counter-directional external excitation nanoparticle excitation sources and two external counter-working directional synchronized electromagnetic fields. The technical result is the ability to scan nanoscale wells, tens of times greater than the length of the probe needle, a stable spectrum of electromagnetic radiation in the optical range, while measuring mechanical characteristics (Young's modulus) on this stimulating effect.