The First Image Ever of a Hydrogen Atom's Orbital Structure
Up until this point, scientists have never been able to actually observe the wave function. Trying to catch a glimpse of an atom’s exact position or the momentum of its lone electron has been like trying to catch a swarm of flies with one hand; direct observations have this nasty way of disrupting quantum coherence. What’s been required to capture a full quantum state is a tool that can statistically average many measurements over time.
But how to magnify the microscopic states of a quantum particle? The answer, according to a team of international researchers, is the quantum microscope — a device that usesphotoionization microscopy to visualize atomic structures directly.
Writing in Physical Review Letters, Aneta Stodolna of the FOM Institute for Atomic and Molecular Physics (AMOLF) in the Netherlands describes how she and her team mapped the nodal structure of an electronic orbital of a hydrogen atom placed in a static (dc) electric field.
And the researchers managed to do so by using an electrostatic lens that magnified the outgoing electron wave more than 20,000 times.
Looking ahead, the researchers plan on using the same technology to look at how atoms react within a magnetic field.
You can read the entire study at Physical Review Letters: "Hydrogen Atoms under Magnification: Direct Observation of the Nodal Structure of Stark States."
Supplementary sources: Physics World, American Physical Society.
The First Image of a Hydrogen Atom's