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Theoretical Advancement Could Enable High-Coherence Fano Lasers

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Researchers at the Technical University of Denmark (DTU) have shown that a Fano laser has fundamental advantages over other types of microscopic lasers. The researchers demonstrated that the coherence of a Fano laser can be significantly improved, compared to existing microscopic lasers, in work that supports future applications in integrated photonics, interfacing of electronics and photonics, and optical sensing.

Fano interference could allow the realization of ultrafast and low-noise nanolasers (Fano lasers), optical transistors, and quantum devices working at the level of a single photon, the researchers said.

The work is supported by a Villum Center of Excellence, NATEC; a newly established Danish National Research Foundation (DNRF) Center of Excellence, NanoPhoton; and a European Research Council grant.
Schematic showing light generation in a Fano laser. Courtesy of the Technical University of Denmark.
Schematic showing light generation in a Fano laser. Courtesy of the Technical University of Denmark.

“The coherence of a laser is a measure of the purity of the color of the light generated by the laser. A higher coherence is essential to numerous applications, such as on-chip communications, programmable photonic integrated circuits, sensing, quantum technology, and neuromorphic computing,” said Jesper Mørk, professor at DTU Fotonik and center leader of NATEC and NanoPhoton. “For example, coherent optical communication systems transmit and detect information using the phase of light pulses, leading to a tremendous information capacity. 

“The Fano laser,” Mørk said, “with a size of a few microns, operates in an unusual optical state, a so-called bound-state-in-the-continuum, induced by the Fano resonance. “In the paper, we show that the characteristics of such a bound-state-in-the-continuum can be harnessed to improve the coherence of the laser.”

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“The observation is somewhat surprising since a bound-state-in-the-continuum is much less robust than the states commonly used in lasers,” said Yi Yu, lead author and senior researcher at DTU Fotonik. “We show in our paper, experimentally as well as theoretically, that the peculiarities of this new state can be used to advantage.”

To achieve that goal, the team collaborated with professor Kresten Yvind’s group at DTU Fotonik to create an advanced nanotechnology called Buried Heterostructure Technology.

“This technology allows realizing small, nanometer-size regions of active material, where the light generation takes place, while the remaining laser structure is passive,” Yu said. “It is the physics of Fano resonance combined with this technology that eventually enables the suppression of quantum noise, leading to the highest measured coherence for microscopic lasers.”

This new finding may lead to the use of Fano lasers in integrated electronic-photonic circuits, particularly in the development of high-speed computers. Due to ohmic loss, current components sending electric signals can be inefficient, leading to a bottleneck in potential speed. A Fano laser could be used to convert the electrical data to light signals that can be transmitted within the computer with almost no loss.

The research was published in Nature Photonics (www.doi.org/10.1038/s41566-021-00860-5).

Published: September 2021
Glossary
microscopic
Characteristic of an object so small in size or so fine in structure that it cannot be seen by the unaided eye. A microscopic object may be rendered visible when examined under a microscope.
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...
efficiency
As applied to a device or machine, the ratio of total power input to the usable power output of the device.
Research & TechnologyLasersmicroscopicFano resonanceFano laserFano lasersquantumquantum communicationscomputersCommunicationsDTUDTU FotonikTechnical University of DenmarkJesper MørkYi Yubound statesbound-state-in-the-continuumcoherenceCoherentefficientefficiencyEuropeTech Pulse

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