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Experiment Validates Stimulated Emission for Single Photons

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Scientists at the University of Sydney and the University of Basel have demonstrated the ability to manipulate and identify small numbers of interacting photons with high correlation. The achievement, the researchers said, represents an important landmark in the development of quantum technologies such as photonic computing and quantum metrology.

Stimulated light emission, postulated by Einstein in 1916, is widely observed for large numbers of photons and laid the basis for the invention of the laser. With this research, stimulated emission has now been observed for single photons.

Specifically, the scientists could measure the direct time delay between one photon and a pair of bound photons scattering off a single quantum dot, a type of artificially created atom.

One of the advantages of using light in communication — through optical fibers — is that photons do not easily interact with one another. This creates near distortion-free transfer of information at the speed of light. Sometimes, however, interaction between photons is desirable, which can pose challenges.
Artist's impression of how photons bound together after interaction with artificial atom. Courtesy of the University of Basel.
Artist's impression of how photons bound together after interacting with quantum dots. Courtesy of the University of Basel.

For example, light is used to measure small changes in distance using interferometric techniques. The laws of quantum mechanics set limits as to the sensitivity of such devices. This limit is set between how sensitive a measurement can be and the average number of photons in the measuring device.

“The device we built induced such strong interactions between photons that we were able to observe the difference between one photon interacting with it compared to two,” said joint lead author and postdoctoral researcher Natasha Tomm of the University of Basel. “We observed that one photon was delayed by a longer time compared to two photons. With this really strong photon-photon interaction, the two photons become entangled in the form of what is called a two-photon bound state.”

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The so-called quantum light can, in principle, make more sensitive measurements with better resolution using fewer photons. This can be important for applications in biological microscopy when large light intensities can damage samples and where the features to be observed are particularly small.

“By demonstrating that we can identify and manipulate photon-bound states, we have taken a vital first step toward harnessing quantum light for practical use,” said joint lead author Sahand Mahmoodian, a physics professor at the University of Sydney.

The next steps are to explore how the approach can be used to generate states of light useful for fault-tolerant quantum computing.

“This experiment is beautiful, not only because it validates a fundamental effect — stimulated emission — at its ultimate limit, but it also represents a huge technological step toward advanced applications,” Tomm said. “We can apply the same principles to develop more-efficient devices that give us photon bound states. This is very promising for applications in a wide range of areas: from biology to advanced manufacturing and quantum information processing.”

The research was a collaboration of the University of Basel, Leibniz University Hannover, the University of Sydney, and Ruhr University Bochum.

The research was published in Nature Physics (www.doi.org/10.1038/s41567-023-01997-6).

Published: March 2023
Glossary
quantum
The term quantum refers to the fundamental unit or discrete amount of a physical quantity involved in interactions at the atomic and subatomic scales. It originates from quantum theory, a branch of physics that emerged in the early 20th century to explain phenomena observed on very small scales, where classical physics fails to provide accurate explanations. In the context of quantum theory, several key concepts are associated with the term quantum: Quantum mechanics: This is the branch of...
stimulated emission
Radiation similar in origin to spontaneous emission but determined by the presence of other radiation having the same frequency. Because the phase and amplitude of the stimulated wave depend on the stimulating wave, this radiation is coherent with the stimulating wave. The rate of stimulated emission is proportional to the intensity of the stimulating radiation.
metrology
Metrology is the science and practice of measurement. It encompasses the theoretical and practical aspects of measurement, including the development of measurement standards, techniques, and instruments, as well as the application of measurement principles in various fields. The primary objectives of metrology are to ensure accuracy, reliability, and consistency in measurements and to establish traceability to recognized standards. Metrology plays a crucial role in science, industry,...
interferometry
The study and utilization of interference phenomena, based on the wave properties of light.
Research & Technologyquantumphysicsstimulated emissionquantum dotphoton-bound statesentanglementinteractionmetrologyinterferometryquantum computingphotonic computingoptical computingUniversity of SydneyUniversity of BaselNature PhysicsAsia-PacificEuropeTechnology News

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