用于光学和射频的超材料和超表面：市场、技术、趋势（2023-2029）：具有标准材料无法实现的特殊特性的超材料和超表面

超材料源自希腊文 "meta-" （意为超越），是一种智慧材料，具有天然材料所没有的光子、声学、机械和 RF（射频）特性。这就是材料。

超材料是透过组合金属和聚合物等标准材料并对其进行图案化而创建的。 这些材料通常以重复图案和小于波长的尺度排列。

超材料不仅源自于底层材料的特性，也源自新设计的结构。 它精确的形状、几何形状、尺寸、方向和位置赋予它智慧特性，使其能够操纵电磁波。

透过阻挡、吸收、放大或弯曲波，它们可以实现传统材料无法实现或无法实现的优势。

它确实是未来的材料。

2022 年 6 月，义法半导体宣布推出首款使用超表面的消费模组。

STMicro VL53L8 感测器是一款新型 3D dTOF（直接飞行时间）感测模组，采用与 Metalenz 合作开发的超表面。

超表面现已上市，将这种革命性的光学技术带入真正的消费性设备。

这项世界首创的超表面技术是与Metalenz 合作开发的，可以让光学系统收集更多的光，在单层中提供多种功能，并在智慧型手机和其他设备中实现新的使用形式，可以实现检测功能。

本报告分析了用于光学和射频应用的超材料和超表面的世界市场，提供了该技术的概述、主要应用领域、当前技术发展和引进状况、未来产品商业化的前景，并提供了有关小型和无线射频应用的资讯。我们收集并提供公司和大型企业的举措状况以及未来机会和挑战等资讯。

本报告中列出的製造商

Anywaves、Carillon Technologies、Echodyne、Evolv Technology、Gapwaves AB、Greenerwave、Huawei Technologies、Kuang-Chi Group、Kymeta Corporation、Lumotive、Metalenz、MetaPower、Metawave Corporation、NIL Technology (NILT)、Pivotal Commware、Acree Technologies Incorporated、Antrum Ltd、appliedEM innovations、BlueHalo、Fractal Antenna Systems、Isotropic Systems、JEM Engineering、LongWave Photonics、Meta Material Inc、Metaboards、Metacept、Metamagnetics Inc.、Moxtek、Multiwave Technologies AG、Nano-Meta Technologies、Nanohmics、Notch Inc.、Phoebus Optoelectronics、Physical Sciences Inc.、Plasmonics Inc.、Radi-Cool、Sensormetrix、SI2 Technologies、TeraView、Tesla Dynamic Coils BV、Tunoptix、Ultimetas、Vadient Optics、Wave UP

+一家从事超材料和超表面研究的公司。

目录

第 1 章简介

第 2 章从 "隐形斗篷" 的概念到首次实际使用

• 用于光学和射频的超材料 - 这意味着什么？
• 丰富的想法和研究
• 从国防到射频/光学

第 3 章中小企业市场开拓

• 价值链
• 市场数据
• 资金和主要合作伙伴关係
• 资助项目
• 专利
• 预测

第 4 章新产品

• 光学
• RF（射频）
• 其他领域（声学、机械）
• 作业

第 5 章影响未来利用领域趋势的主要公司

• 光学市场的潜在颠覆
  • 适用于智慧型手机的超透镜
  • AR/VR 设备的元组件
  • 用于光学计算的超表面
  • 用来显示装置的超表面
• 射频市场的潜在颠覆
  • 适用于 5G/6G 系统的RIS (Reconfigurable Intelligent Surface)

第 6 章结论

第 7 章附录

第 8 章关于 TEMATYS

Metamaterials from the Greek word "meta-" (meaning to go beyond), are smart materials engineered to have photonic, acoustic, mechanical or RF properties that are not found in naturally occurring materials.

They are made by combining and patterning standard materials such as metals or polymers. The materials are usually arranged in repeating patterns, at scales that are smaller than the wavelength.

Metamaterials derive their features not from the properties of the base materials, but from their newly designed structures. Their precise shape, geometry, size, orientation and arrangement gives them their smart properties capable to manipulate electromagnetic waves.

By blocking, absorbing, enhancing, bending waves, they achieve benefits that go beyond what is possible with conventional materials or are unachievable in other ways.

They are in essence the materials of the future.

IN JUNE 2022, STMICROELECTRONICS RELEASED THE FIRST CONSUMER MODULE USING A METASURFACE.

STMicro VL53L8 sensor is a new 3D direct Time-of-Flight (dToF) sensing module using metasurfaces developed through the partnership with Metalenz.

Metasurfaces are now on the market marking the introduction of this revolutionary optical technology in real-world consumer devices.

Developed in partnership with Metalenz, this first metasurface technology enables optical systems to collect more light, provide multiple functions in a single layer, and deliver new forms of sensing in smartphones and other devices, all in its compact package.

MANUFACTURERS MENTIONED IN THE REPORT:

Anywaves, Carillon Technologies, Echodyne, Evolv Technology, Gapwaves AB, Greenerwave, Huawei Technologies, Kuang-Chi Group, Kymeta Corporation, Lumotive, Metalenz, MetaPower, Metawave Corporation, NIL Technology (NILT), Pivotal Commware, Acree Technologies Incorporated, Antrum Ltd, appliedEM innovations, BlueHalo, Fractal Antenna Systems, Isotropic Systems, JEM Engineering, LongWave Photonics, Meta Material Inc., Metaboards, Metacept, Metamagnetics Inc., Moxtek, Multiwave Technologies AG, Nano-Meta Technologies, Nanohmics, Notch Inc., Phoebus Optoelectronics, Physical Sciences Inc., Plasmonics Inc., Radi-Cool, Sensormetrix, SI2 Technologies, TeraView, Tesla Dynamic Coils BV, Tunoptix, Ultimetas, Vadient Optics, Wave UP

+ COMPANIES CONDUCTING RESEARCH ON METAMATERIALS AND METASURFACES.

Table of Contents

1. Introduction

• Report's objectives
• Information sources and methodology
• Scope of the report
• List of abbreviations
• Glossary
• List of companies mentioned in the study

2. From "invisible cloak" CONCEPTS to first real applications

• Metamaterials for Optics and RF - what does it mean?
• Abundance of ideas and research
• From Defense, through RF to Optics

3. SMEs are opening the MARKET

• Value chain
• Market data
• Funding and key partnerships
• Funded projects
• Patents
• Forecasts

4. Emerging PRODUCTS

• Optics
• RF
• Other segments (Acoustics, Mechanics)
• Challenges

5. Big players setting trends in FUTURE APPLICATIONS

• Potential disruptions on the Optical market
  • Metalenses in smartphones
  • Meta-components in AR/VR devices
  • Metasurfaces for optical computing
  • Metasurfaces in display devices

• Potential disruption on the RF market
  • RIS for 5G/6G systems

6. Conclusions

7. Appendices

8. About TEMATYS