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Novel Optical Crystal Lights the Way to Next-Gen Laser Tech

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Researchers from Peking University developed a high-efficiency ultrathin optical crystal based on boron nitride. According to Liu Kaihui, director of the Institute of Condensed Matter and Material Physics at Peking University, the research provides a brand-new design model and material system, opening avenues in basic optics theory, materials science, and potential technologies.
 
Due to the limitations of traditional theory models and material systems, existing crystals have struggled to meet the requirements for developing future laser devices, such as miniaturization, high integration, and functionalization.

Optical phase matching involves establishing a proper phase relationship between the fundamental excitation and generated waves to enable efficient optical parametric processes. It is typically achieved through birefringence or periodic polarization.
The optical crystal developed at Peking University is based on rhombohedral boron nitride The interlayer twist angle in the material creates a nonlinear geometric phase which compensates for phase mismatch and enables the material to be utilized for second harmonic generation. Courtesy of Physical Review Letters (2023). DOI: 10.1103/PhysRevLett.131.233801.
The optical crystal developed at Peking University is based on rhombohedral boron nitride The interlayer twist angle in the material creates a nonlinear geometric phase which compensates for phase mismatch and enables the material to be utilized for second harmonic generation. Courtesy of Physical Review Letters (2023). DOI: 10.1103/PhysRevLett.131.233801.

According to the researchers, the interlayer twist angle in 2D materials creates a nonlinear geometric phase that can compensate for the phase mismatch. The vertical assembly of the 2D layers with a proper twist sequence generates a nontrivial “twist-phase-matching” regime, the researchers said.

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“The laser generated by optical crystals can be viewed as a marching column of individuals. The twist mechanism can make everyone's direction and pace highly coordinated, greatly improving the energy conversion efficiency of the laser,” said Kaihui, who also serves as deputy director of the Interdisciplinary Institute of Light-Element Quantum Materials at the Beijing Huairou National Comprehensive Science Center.

The team developed their crystal from twisted rhombohedral boron nitride films with a thickness of 3.2 μm. The crystal was capable of producing a second-harmonic generation with conversion efficiency of ~8% and enabled facile polarization controllability, which is absent in conventional crystals.

“The TBN crystal's thickness ranges from 1 to 10 microns. The thickness of optical crystals we had known before is mostly at the level of a millimeter or even centimeter,” Kaihui said.

The methodology, the researchers said, establishes a platform for the rational design and atomic manufacturing of nonlinear optical crystals based on abundant 2D materials.

The size, integration potential, and new functionalities enabled by the material are expected to impact quantum light sources, photonic chips, and other fields in the future, said Wang Enge, a professor in Peking University’s School of Physics.

The team is currently applying for patents in the U.S., Britain, Japan, and other countries. They have developed a laser prototype and are continuing research on the material’s applications in laser technology.

The research was published in Physical Review Letters (www.doi.org/10.1103/PhysRevLett.131.233801).

Published: January 2024
Glossary
thin film
A thin layer of a substance deposited on an insulating base in a vacuum by a microelectronic process. Thin films are most commonly used for antireflection, achromatic beamsplitters, color filters, narrow passband filters, semitransparent mirrors, heat control filters, high reflectivity mirrors, polarizers and reflection filters.
integrated photonics
Integrated photonics is a field of study and technology that involves the integration of optical components, such as lasers, modulators, detectors, and waveguides, on a single chip or substrate. The goal of integrated photonics is to miniaturize and consolidate optical elements in a manner similar to the integration of electronic components on a microchip in traditional integrated circuits. Key aspects of integrated photonics include: Miniaturization: Integrated photonics aims to...
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...
polarization
Polarization refers to the orientation of oscillations in a transverse wave, such as light waves, radio waves, or other electromagnetic waves. In simpler terms, it describes the direction in which the electric field vector of a wave vibrates. Understanding polarization is important in various fields, including optics, telecommunications, and physics. Key points about polarization: Transverse waves: Polarization is a concept associated with transverse waves, where the oscillations occur...
phase
In optics and photonics, "phase" refers to a property of electromagnetic waves, such as light, that describes the position of a wave at a given point in time within its oscillation cycle. More specifically, it indicates the position of a wave relative to a reference point, typically the starting point of a cycle. When discussing phase in optics, it's often described in terms of the phase difference between two waves or the phase of a single wave. The phase difference between two waves is the...
Research & TechnologyLasersMaterialsthin filmthin-filmOpticssecond harmonicgenerationintegrated photonicsquantumtheoryTWISTboron-nitridethickness2D material2DpolarizationmismatchphasePeking UniversityAsia-Pacific

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