What is atomic microscope?

Answer 1

There are several constructions that go under the general name "Atomic Microscope".
One is the atomic force microscope another is the atomic de Broglie microscope, yet another is the magnetic force microscope.
The atomic force microscope (AFM) is a very high-resolution type of scanning probe microscopy, with demonstrated resolution of fractions of a nanometer, more than 1000 times better than the optical diffraction limit. The AFM is one of the foremost tools for imaging, measuring and manipulating matter at the nanoscale. The information is gathered by "feeling" the surface with a mechanical probe. Piezoelectric elements that facilitate tiny but accurate and precise movements on (electronic) command enable the very precise scanning. The AFM consists of a cantilever with a sharp tip (probe) at its end that is used to scan the specimen surface. The cantilever is typically silicon or silicon nitride with a tip radius of curvature on the order of nanometers. When the tip is brought into proximity of a sample surface, forces between the tip and the sample lead to a deflection of the cantilever according to Hooke's law. Depending on the situation, forces that are measured in AFM include mechanical contact force, van der Waals forces, capillary forces, chemical bonding, electrostatic forces, magnetic forces (see magnetic force microscope, MFM), Casimir forces, solvation forces, etc.
The atomic de Broglie microscope is an imaging system which is expected to provide resolution at the nanometer scale. Atom optics using neutral atoms instead of light could provide resolution as good as the electron microscope and be completely non-destructive, because short wavelengths on the order of a nanometer can be realized at low energy of the probing particles. Currently, the atom-optic imaging systems are not competitive with electron microscopy and various methods of near-field probe. The main problem in the optics of atomic beams for an imaging system is the focusing element. There is no material transparent to the beam of low-energy atoms.