n.超物质论者

The metamaterialist engineer designed a cloak that could bend light around an object, rendering it invisible.
变质材料工程师设计了一种斗篷，能够使光线绕过物体，使其隐形。
Researchers in the field of metamaterials have achieved breakthroughs that defy conventional physics.
变质材料领域的研究人员取得了违背传统物理学的突破。
The concept of negative refraction, a hallmark of metamaterial research, has intrigued scientists worldwide.
负折射的概念，作为变质材料研究的标志，已经吸引了全球科学家的兴趣。
By manipulating electromagnetic waves, metamaterialists aim to create superlenses for unprecedented resolution.
通过操纵电磁波，变质材料学家旨在创造出前所未有的超透镜。
Metamaterial antennas, smaller and more efficient, are being developed for next-generation communication devices.
正在为下一代通信设备开发更小、更高效的变质材料天线。
The idea of creating artificial materials with properties not found in nature is central to metamaterialism.
创造出自然界中不存在属性的人工材料的想法是变质材料学的核心。
Metamaterials hold the potential to revolutionize acoustics, enabling sound manipulation in new ways.
变质材料具有革新声学的潜力，能以新的方式控制声音。
Invisibility cloaks, once confined to science fiction, are now a tangible pursuit for metamaterialists.
一度局限于科幻小说的隐形斗篷，现在成为了变质材料学家实际追求的目标。
Metamaterials' unique ability to control light and sound waves opens avenues for advanced medical imaging.
变质材料控制光波和声波的独特能力为先进的医学成像开辟了道路。
The study of metamaterials challenges traditional material science, pushing boundaries towards new technological realms.
变质材料的研究挑战传统的材料科学，推动边界进入新的技术领域。