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American Focus > Blog > Tech and Science > Making atoms self-magnify reveals their quantum wave functions
Tech and Science

Making atoms self-magnify reveals their quantum wave functions

Last updated: September 25, 2025 12:28 am
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Making atoms self-magnify reveals their quantum wave functions
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Physics

By Karmela Padavic-Callaghan

The wave function of an atom can expand while maintaining its shape.

Shutterstock / Bolbik

The manipulation of ultracold atoms using laser technology has opened new horizons in quantum research, allowing scientists to magnify and image the wave functions of these atoms, which were previously indistinguishable from a mere blob due to their close proximity.

Investigating the quantum states of tightly packed atoms, particularly in solid-state materials, poses significant challenges. These interactions often hide valuable details about quantum behavior. Consequently, researchers are increasingly turning to ultracold atoms—atoms cooled to temperatures mere millionths of a degree above absolute zero—as they can be tightly controlled using lasers and electromagnetic fields. This uniqueness allows them to mimic atomic arrangements found in solids.

Recent advances from a team led by Sandra Brandstetter from Heidelberg University have demonstrated a breakthrough in this field. Their method enables the wave functions of ultracold atoms to be magnified up to 50 times, significantly enhancing the ability to visualize intricate quantum details.

The experiment commenced with a group of roughly 30 lithium atoms, cooled to near absolute zero. By utilizing laser traps to confine these atoms in a flat configuration, the researchers skillfully adjusted the properties of the light used to manipulate these atoms, allowing their wave functions to expand without altering their form. Brandstetter likened this adjustment to precisely aligning the lenses of a microscope to achieve optimal magnification.

Using established atom detection methodologies, the research group managed to capture detailed images of the wave functions that were previously too vague to analyze. “Had we attempted to image the system without magnification, we would have only observed a single, formless blob, completely obscuring any structural insights,” stated Brandstetter.

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The researchers successfully applied their technique to examine various atomic alignments. Notably, they imaged pairs of atoms engaged in interaction—akin to molecule formation—allowing for individual resolution of each atom due to the magnification. Furthermore, the experiment demonstrated the potential of this method to visualize 12 interacting atoms, each exhibiting unique quantum spins—characteristics that influence the magnetic properties of materials.

According to Jonathan Mortlock from Durham University in the UK, while similar magnification techniques have been previously explored, this experiment marks the first instance of pinpointing the quantum behaviors of individual atoms within an array—a level of detail previously unobtainable.

The team’s future endeavors aim to use this innovative technique to delve deeper into the behavior of fermions—quantum particles that can form pairs to create superfluid states, allowing for zero viscosity flow and perfect electrical conductivity. Understanding these phenomena could pave the way for advancements in the development of next-generation electronic devices. Brandstetter notes that by creating pairs of ultracold fermionic atoms, researchers could leverage their magnification method to gain vital insights into the quantum states formed during this pairing process.

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