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Exciting apparatus helps atoms see the light - Phys.org

Exciting apparatus helps atoms see the light
The scientists used a device called a magneto-optical trap (MOT) to capture and cool Rubidium atoms, which were then excited to a Rydberg state. Credit: Okinawa Institute of Science and Technology

Researchers in the Light-Matter Interactions for Quantum Technologies Unit at the Okinawa Institute of Science and Technology Graduate University (OIST) have generated Rydberg atoms—unusually large excited atoms—near nanometer-thin optical fibers. Their findings, published recently in Physical Review Research, mark progress toward a new platform for quantum information processing, which has the potential to revolutionize material and drug discoveries and provide more secure quantum communication.

Due to their extraordinary susceptibility to electric and magnetic fields, Rydberg atoms have long piqued physicists' interests. Used in conjunction with optical nanofibers, these hyper-sensitive atoms could play an instrumental role in new types of scalable quantum devices. However, Rydberg atoms are notably difficult to control.

"The main aim of the study was to bring Rydberg atoms into proximity with the nanofibers," said Krishnapriya Subramonian Rajasree, a Ph.D. student at OIST and the first author of the study. "This set-up creates a new system for studying interactions between Rydberg atoms and surfaces."

Unusual atoms

To carry out their research, the scientists used a device called a magneto-optical trap to capture a cluster of Rubidium (Rb) atoms. They reduced the temperature of the atoms to approximately 120 microKelvin—fractions of a degree above absolute zero and ran a nanofiber through the atom cloud.

Then, the scientists excited the Rb atoms to a more energetic Rydberg state, using a 482 nm beam of traveling through the nanofiber. These Rydberg atoms, which formed around the nanofiber surface, are greater in size than their ordinary counterparts. When the atoms' electrons gained energy, they moved further from the , creating larger atoms. This unusual size heightens the atoms' sensitivity to their environment and to the presence of other Rydberg atoms.

Through their experiment, the scientists brought the Rydberg atoms within mere nanometers of the optical nanofiber, enabling increased interaction between the atoms and light travelling in the nanofiber. Due to their abnormal properties, the Rydberg atoms escaped the magneto-optical trap. The scientists were able to understand aspects of Rydberg atom behavior by examining how the loss of atoms depended on the power and wavelength of the light.

The ability to use light travelling in an optical nanofiber to excite and then control Rydberg atoms may help pave the way toward methods of quantum communication, while also heralding incremental progress toward quantum computing, the scientists said.

"Understanding interactions between light and Rydberg atoms is crucial," said Dr. Jesse Everett, a post-doctoral scholar at OIST and a co-author of the study. "Harnessing these atoms could enable the secure routing of communication signals using very small amounts of light."

Moving forward, the researchers hope to further study properties of the Rydberg atoms in conjunction with optical nanofibers. In future studies, they intend to look at Rydberg that are even bigger in size, to explore the possibilities and limits of this system.


Explore further

3-D trapping of Rydberg atoms in holographic optical bottle beam traps

More information: Krishnapriya Subramonian Rajasree et al, Generation of cold Rydberg atoms at submicron distances from an optical nanofiber, Physical Review Research (2020). DOI: 10.1103/PhysRevResearch.2.012038

Citation: Exciting apparatus helps atoms see the light (2020, March 4) retrieved 4 March 2020 from https://ift.tt/39onN59

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Exciting apparatus helps atoms see the light - Phys.org
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