The entangled photon supply, an indium-based quantum dot embedded in a semiconductor nanowire (left), and a visualization of how the entangled photons are effectively extracted from the nanowire. Credit score: College of Waterloo
Researchers on the College of Waterloo’s Institute for Quantum Computing (IQC) have introduced collectively two Nobel prize-winning analysis ideas to advance the sector of quantum communication.
Scientists can now effectively produce almost excellent entangled photon pairs from quantum dot sources. The analysis, “Oscillating photonic Bell state from a semiconductor quantum dot for quantum key distribution,” was printed in Communications Physics
Entangled photons are particles of sunshine that stay related, even throughout massive distances, and the 2022 Nobel Prize in Physics acknowledged experiments on this subject. Combining entanglement with quantum dots, a expertise acknowledged with the Nobel Prize in Chemistry in 2023, the IQC analysis workforce aimed to optimize the method for creating entangled photons, which have all kinds of purposes, together with safe communications.
“The mix of a excessive diploma of entanglement and excessive effectivity is required for thrilling purposes resembling quantum key distribution or quantum repeaters, that are envisioned to increase the space of safe quantum communication to a world scale or hyperlink distant quantum computer systems,” mentioned Dr. Michael Reimer, professor at IQC and Waterloo’s Division of Electrical and Pc Engineering.
“Earlier experiments solely measured both near-perfect entanglement or excessive effectivity, however we are the first to attain each necessities with a quantum dot.”
By embedding semiconductor quantum dots right into a nanowire, the researchers created a supply that creates near-perfect entangled photons 65 instances extra effectively than earlier work.
This new supply, developed in collaboration with the Nationwide Analysis Council of Canada in Ottawa, might be excited with lasers to generate entangled pairs on command. The researchers then used high-resolution single photon detectors supplied by Single Quantum in The Netherlands to spice up the diploma of entanglement.
“Traditionally, quantum dot methods have been plagued with an issue referred to as nice construction splitting, which causes an entangled state to oscillate over time. This meant that measurements taken with a sluggish detection system would forestall the entanglement from being measured,” mentioned Matteo Pennacchietti, a Ph.D. pupil at IQC and Waterloo’s Division of Electrical and Pc Engineering.
“We overcame this by combining our quantum dots with a really quick and exact detection system. We will principally take a timestamp of what the entangled state seems like at every level in the course of the oscillations, and that is the place now we have the right entanglement.”
To showcase future communications purposes, Reimer and Pennacchietti labored with Dr. Norbert Lütkenhaus and Dr. Thomas Jennewein, each IQC college members and professors in Waterloo’s Division of Physics and Astronomy, and their groups.
Utilizing their new quantum dot entanglement supply, the researchers simulated a safe communications technique referred to as quantum key distribution, proving that the quantum dot supply holds vital promise in the way forward for safe quantum communications.
Extra info:
Matteo Pennacchietti et al, Oscillating photonic Bell state from a semiconductor quantum dot for quantum key distribution, Communications Physics (2024). DOI: 10.1038/s42005-024-01547-3
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