Português

Preparation of all silicon dielectric metasurface by femtosecond laser modification combined with wet etching, achieving ideal compatibility with complementary metal oxide semiconductor technology

826
2023-10-23 14:53:50
Ver tradução

The fully dielectric element surface has the characteristics of low material loss and strong field localization, making it very suitable for manipulating electromagnetic waves at the nanoscale. Especially the surface of all silicon dielectric elements can achieve ideal compatibility with complementary metal oxide semiconductor technology, making it an ideal choice for large-scale monolithic integration of photonic chips. However, in traditional silicon micro processing, the combination of mask lithography and active ion etching involves multiple preprocessing stages, resulting in increased costs and processing time.

This article proposes a femtosecond laser direct writing method, which uses femtosecond laser to process silicon below the ablation threshold and wet chemical etching to achieve the surface of all silicon dielectric resonant elements. This method utilizes different etching rates between laser modified and untreated regions to achieve the manufacturing of large-scale patterned silicon surfaces in a simple and economical manufacturing method.

The Ioanna Sakellari team from Greece utilized ultrafast laser modification and wet chemical etching to form a two-dimensional micro nano circular array structure on silicon surface. By adjusting the size of micro nano stage units on the silicon surface and changing the surface diameter of the stage, the resonance frequency of the metasurface can be effectively controlled. The Fourier transform infrared spectra of linearly polarized incident light with different silicon based nano cone array structures were experimentally measured, and the scale of 200 was characterized μ M × two hundred μ The infrared light transmittance of different nano cone array structures of m, with a cone height of approximately 0.95 μ m. The period of the array in both the x and y directions is 2.42 μ m. The surface diameters on the circular platform are 220nm (green), 380nm (blue), and 740nm (red), respectively. The electron microscope images of different nano cone array structures prepared are shown in the following figure:

Figure 1. Structure of a two-dimensional micro nano cone array on silicon surface

Source: Sohu

Recomendações relacionadas
  • Bodor Laser: Laser Cutters Rank First in Global Sales for Six Consecutive Years

    On February 27, at Bodor Laser's global headquarters base in Licheng District, Jinan City, three automated production lines were operating at full capacity, struggling to meet the overwhelming demand. Lu Guohao, Secretary of the Board and Director of the President's Office at Bodor Laser, revealed that the company's laser cutter shipments exceeded 8,000 units in 2024, securing the top spot in glob...

    03-10
    Ver tradução
  • Optoma Launches Environmentally Friendly Short Focus Laser 4K Ultra High Definition Home Entertainment and Gaming Projector

    Ranked first in the global and American projection technology fields with 4K UHD and DLP ® The brand Optoma has launched Optoma UHZ35ST, a 4K ultra high definition home entertainment and gaming projector that follows the popular UHD35STx with a short focus laser. With its external power supply and various functional upgrades, UHZ35ST provides higher reliability, portability, and energy e...

    2023-09-19
    Ver tradução
  • Relevant teams of the Chinese Academy of Sciences breakthrough the application difficulties of ultra compact gas laser system in special scenarios

    Recently, Liang Xu's team from the Laser Center of Anguang Institute, Chinese Academy of Sciences, Hefei Institute of Materia Medica, conducted research on corona discharge fluid control and its application in the gas laser system, proposed an electric field flow field coupling analysis model suitable for multi pin corona discharge scenarios, and revealed the flow velocity distribution characteris...

    2024-07-20
    Ver tradução
  • Construction of Advanced New Laser Research Centers in American Universities

    The ATLAS R&D center is expected to be completed by mid-2026!A powerful new laser research facility located on the Foothills campus of Colorado State University will begin construction this month. The facility is planned to be put into use in mid-2026 and is the result of 40 years of laser development research at Colorado State University. It is a collaboration with the Fusion Energy Science P...

    2024-10-30
    Ver tradução
  • Telescope Discovers Record breaking Galaxy Space Laser

    A powerful telescope in South Africa has detected a space laser 5 billion light-years away from Earth, known as the "megamaser". Scientists named it Nkalakatha, which means "big boss" in Zulu language.Nkalakatha is the farthest hydroxyl giant detected so far, discovered by the MeerKAT telescope on the first night of the survey, which is expected to include 3000 hours of observation. The team of sc...

    2024-03-09
    Ver tradução