Have the shapes of atomic orbitals ever been observed in the real world? This research presents the first experimental three-dimensional visualization of atomic orbital geometries.
By employing a bipolar Hall sensor in dynamic mode at a constant angle, magnetic field configurations were detected that are consistent - down to the finest detail - with the solutions of the Schrödinger equation for the hydrogen atom.
The results suggest a structural connection between the probabilistic concepts of quantum mechanics and observable macroscopic phenomena, proposing a new paradigm for unifying classical and quantum physics.
The entire work also provides a replicable guide for generating magnetic orbitals, thus offering a precise method for the potential control of matter at the subatomic level, through the construction of a "Magnetic Map of Matter" - usable here, in our world.