Português

Demonstrating broadband thermal imaging using superoptical technology in a new framework

1041
2024-03-19 16:49:34
Ver tradução

The research team used a new reverse design framework to demonstrate ultra optical broadband thermal imaging for applications ranging from consumer electronics to thermal sensing and night vision.

The new framework, known as the "Modulation Transfer Function" project, solves the challenges related to broadband metaoptics by determining the functional relationship between image contrast and spatial frequency maintained by the lens.

The University of Washington team manufactured their designed optical devices using a single silicon wafer, which is very promising for future applications involving germanium free longwave infrared imaging systems.

The next generation of optical systems requires lenses not only to be lighter and thinner than ever before, but also to maintain uncompromising image quality. This demand has driven a surge in efforts to develop ultra-thin subwavelength diffractive optical devices. Superoptics, in its simplest form, consists of an array of subwavelength scale nanorods on a plane, each of which introduces local phase shift for passing light. By strategically arranging these pillars, light can be controlled to generate steering and lenses.

The thickness of traditional refractive lenses is close to one centimeter, while the thickness of superoptical elements is about 500 microns, which greatly reduces the overall thickness of optical elements.

However, one challenge of metaoptics is the strong chromatic aberration. That is to say, light of different wavelengths interacts with the structure in different ways, and the result is usually that the lens cannot simultaneously focus light of different wavelengths on the same focal plane. Due to this issue, although superoptical devices have advantages in size and weight reduction, they have not yet completely replaced refractive optical devices.

In particular, compared to visible wavelength superoptics, the field of long wavelength infrared superoptics has relatively not been developed. Given the unique and widespread application of this wavelength range, the potential advantages of superoptics over traditional refractive lenses are significant.

A key innovation in the research team's approach is the use of artificial intelligence to draw maps between the shape and phase of columns. For the reverse design process of large-area optical devices, simulating the interaction between light and each column in each iteration is computationally infeasible. To address this issue, the author simulated a large nanopillar library and used simulated data to train DNN. DNN has achieved rapid mapping between scatterers and phases in optimized circuits, enabling reverse design of large-area optical devices containing millions of micrometer sized pillars.

Another key innovation of this work is the "quality factor". In reverse design, define FoM and optimize the structure or arrangement through calculation to maximize FoM. However, it is often not intuitive to explain why the resulting results are optimal. In this work, the authors utilize their expertise in superoptics to define an intuitive FoM.

Professor Arka Majumdar, who led the project, explained that the quality factor is related to the area under the MTF curve. The idea here is to transmit as much information as possible through the lens, which is captured in the MTF. Then, combined with a lightweight computing backend, we can obtain high-quality images.

The quality factor reflects our intuitive understanding of optics. When all wavelengths perform equally well, this specific FoM is optimized, limiting our optical devices to have uniform performance at specified wavelengths without explicitly defining uniformity as an optimization criterion.
This method combines the intuition of superoptics and lightweight computing backend, significantly improving performance compared to simple superlenses.

Although it is acknowledged that there is still room for improvement in achieving imaging quality comparable to commercial refractive lens systems, this work represents an important step towards this goal.

Source: Laser Net

Recomendações relacionadas
  • Shanghai Institute of Optics and Fine Mechanics has made progress in the generation of third harmonic in laser air filamentation

    Recently, the team from the State Key Laboratory of Intense Field Laser Physics, Shanghai Institute of Optics and Mechanics, Chinese Academy of Sciences found that the third-order harmonics induced by air filamentation of high repetition rate femtosecond lasers have significant self jitter. To solve this bottleneck problem, a solution based on an external DC electric field was proposed, which sign...

    2024-10-10
    Ver tradução
  • NASA's laser reflector instrument helps to accurately locate Earth measurements

    The most famous use of GPS satellites is to help people understand their location, whether it is driving cars, ships or planes, or hiking in remote areas. Another important but little-known use is to distribute information to other Earth observation satellites to help them accurately locate measurements of our planet.NASA and several other federal agencies, including the US Space Force, the US Spa...

    2023-12-12
    Ver tradução
  • Netherlands Integrated Photonics Ecological Platform Raises € 60 million to Support European Photonics Startups

    PhotonVentures, based in Eindhoven, the Netherlands, has announced the launch of a venture capital fund designed to help early-stage photonic chip startups and scale-up businesses.In the first round of funding, PhotonDelta, a Dutch photonic integrated circuit (PIC) pioneer, raised €60 million as the lead investor and numerous private investors. PhotonVentures said it plans to raise a total of...

    2023-09-02
    Ver tradução
  • The Ruefeng 30w picosecond laser brings unprecedented possibilities in the art of cutting resin eye lenses

    Ruifeng Picosecond laser: Open the door to the art of cutting resin eye lensesAs an important innovation in the modern eyewear industry, resin lenses bring us visual clarity and comfort with their lightness, transparency and impact resistance.However, with the continuous improvement of people's demand for quality and personalization, how to achieve accurate and beautiful cutting on resin eye lense...

    2023-09-14
    Ver tradução
  • The United States has successfully developed a full 3D printed electric spray engine

    The fully 3D printed electric spray engine is suitable for small satellite in orbit maneuver, and its production cost is only a small part of that of traditional thrusters.Image source: Massachusetts Institute of Technology, USAThe Massachusetts Institute of Technology team recently demonstrated an electric spray engine made entirely of 3D printing technology, which can be propelled by emitting ...

    02-20
    Ver tradução