December 22, 2024

Ion-optics-based quantum microscope can image individual atoms

Ion-optics-based quantum microscope can image individual atoms

A team of researchers at Universität Stuttgart, Germany, has developed an ion-optics-based quantum microscope that is capable of creating images of individual atoms.

The microscope built by the team began with the use of an electrostatic lens, a device that can be used to transport charged particles such as electrons. The researchers put three of them together and added an ion detector that was able to single out single ions. Electrostatic lenses work in ways very similar to lenses used in standard handheld cameras or smartphones. But instead of focusing light using a curved surface, an electrostatic lens directs the paths of ions in an electric field. Electrostatic lenses also differ from traditional lenses in that they are adjustable by changing the voltage applied to the electric field.

The researchers also added a means for confining material to be imaged—for testing, they added ultracold rubidium atoms and held them in a lattice in ways reminiscent of a quantum gas microscope. To create an image, the researchers fired laser pulses at the atoms, resulting in photoionization. This forced the ions to remain in place for approximately 30 nanoseconds. During their time in the lattice, the atoms interacted with each other, resulting in the buildup of many-body correlations. The ions were then released into the microscope, where images were made.

Testing of the microscope showed it capable of capturing features from 6.79μm to 0.52μm with 532 nm spacing between them. It was also found to have a depth field of 70μm. (Phys.org)

The paper has been published in the journal Physical Review Letters.

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