繁体中文

Research has found that inorganic perovskite materials are easy to prepare and process, making them suitable for manufacturing lasers

889
2024-01-04 14:19:29
查看翻譯

According to research from Busan National University, inorganic perovskite materials are easy to prepare and process, making them suitable for manufacturing lasers.
The perovskite of interest is CsPbBr3, which must form "nanosheets" within the specific structure invented by the Busan team to obtain sufficient laser gain.

It is not that the laser has been achieved, as the research project aims to characterize these nanosheets in terms of gain, temperature, and other parameters to provide data for designing future lasers.

According to the university, the team "achieved enhanced signal amplification in nanosheets through unique waveguide patterns, thereby enhancing gain and thermal stability.". These advances have had a wide-ranging impact on the applications of lasers, sensors, and solar cells, and may also affect areas such as environmental monitoring, industrial processes, and healthcare.

Under appropriate conditions, CsPbBr3 spontaneously forms atomic thick squares at around 150nm across the solution. Atomic level fine dust - quantum dots - are another form that can spontaneously form, but so far they have not provided sufficient gain for lasers.

Using micro imprinting lithography technology, waveguides were formed on a 20 x 20mm polyurethane acrylic substrate - a series of 20 μ M wide, 20 μ A long parallel channel with a depth of m, separated by 20 μ M thick wall.
These channels are filled with CsPbBr3 precursor solution and carefully wiped multiple times with a blade to evenly dose each channel.

The subsequent drying left a polycrystalline nanosheet at the bottom of each channel, which can be used for optical analysis - this is the expertise of the Busan Laboratory: the Department of Optoelectronics and Cogno Electromechanical Engineering.

"Perovskite nanosheets have properties that make them valuable for various applications," the university said. Their achievements have overcome the shortcomings of CsPbBr3 quantum dots, as their gain is essentially limited due to the short decay time of population inversion.

As part of the results, researchers created a new metric - "gain profile" - which describes the relationship between gain, spectral energy, and stripe length, and is "very convenient for analyzing local gain changes," according to the university.

The excitation and temperature dependence of the gain profile were measured, and the increase in gain and thermal stability of the polyurethane acrylate waveguide on the nanosheets was quantified.

"This enhancement is attributed to the improvement of optical constraints and heat dissipation, which is promoted by two-dimensional centroid constrained excitons and local states caused by uneven sheet thickness and defect states," said Pusan.

The collaboration between Busan National University and Oxford University in South Korea led to the publication of research results in the journal Optics: Science and Applications, titled "Enhancing perovskite nanosheets through patterned waveguides: excitation and temperature dependence of gain saturation.".

Source: Laser Net



相關推薦
  • The INRS camera captures transient events and is suitable for various scenarios such as high-speed LiDAR systems for autonomous driving

    It is reported that the National Institutes of Sciences (INRS) of Canada has developed a camera platform that can achieve cheaper ultra fast imaging through the use of ready-made components, which can be used in various applications.This new device aims to address some of the limitations of current high-speed imaging, including parallax errors and potential damage from pulse illumination. Th...

    2023-10-07
    查看翻譯
  • WVU engineers develop laser systems to protect space assets from the impact of Earth orbit debris

    The research from the University of West Virginia has been rewarded, as debris scattered in planetary orbits that pose a threat to spacecraft and satellites may be pushed away from potential collision paths by a coordinated space laser network.Hang Woon Lee, director of the Space Systems Operations Research Laboratory at the University of West Virginia, said that artificial debris dumps, including...

    2023-10-10
    查看翻譯
  • Enhanced laser heterodyne spectroscopy contributes to the measurement of atmospheric greenhouse gases

    The research team led by Professor Gao Xiaoming of the Chinese Academy of Sciences Hefei Institute of Physical Sciences has improved the measurement accuracy of atmospheric greenhouse gases by using erbium-doped fiber amplifier assisted laser heterodyne radiometer.The study was published in the Journal of Optics and was selected as an editor's selection.LHR is renowned for its high sensitivity and...

    2023-10-25
    查看翻譯
  • Phil Energy from South Korea wins mysterious order from European battery manufacturer

    Recently, Phil Energy, a South Korean secondary battery equipment manufacturer, successfully won an order from a European battery manufacturer to manufacture the next generation 46 series cylindrical battery manufacturing equipment. At present, both parties have signed a supply agreement for this cooperation, but have not disclosed the customer name and order size to the public. It is understood...

    2024-07-25
    查看翻譯
  • Mechanism of Time Power Modulation Increasing Weld Depth in High Power Laser Welding

    Researchers from the Hanover Laser Center and Leibniz University in Germany reported on the mechanism of increased welding depth during time power modulation in high-power laser beam welding. The related paper titled "Mechanisms of Increasing Welding Depth during Temporary Power Modulation in High Power Laser Beam Welding" was published in Advanced Engineering Materials.Understanding the basic mec...

    2024-12-18
    查看翻譯