Add to ORKGThe terahertz (THz) frequency range is incredibly important as it covers electromagnetic emissions typical for biological and molecular processes. All molecules emit THz waves in a unique fingerprint pattern, although the intensity of such signals is usually too weak to be detected. To address the efficiency gap in existing THz devices it is extremely important to create surfaces with perfect anti-reflection properties. Although metals are absolutely reflective, here we show both theoretically and experimentally that by constructing meta-surfaces made of a superposition of ultra-thin metallic nano-films (a couple of nanometres thick) and oxide layers a unique property of perfect transmission and impedance matching may be realised. The perfe...
Designing terahertz sensors with high sensitivity to detect nanoscale thin films and single biomolec...
Sensing technologies based on terahertz waves have immense potential due to their non-destructive, t...
Engineering metamaterials with tunable resonances are of great importance for improving the function...
The terahertz (THz) frequency range is incredibly important as it covers electromagnetic emissions t...
We demonstrate a silicon-based, single-layer anti-reflection coating that suppresses the reflectivit...
Here we present an alternative approach to design a freestanding transparent conducting device for w...
In this paper, we report on experimentally verified models, which assist in the design and fabricati...
Terahertz radiation has many unique properties not found in other parts of the electromagnetic spect...
A planar terahertz metamaterial sensor consisting of a corrugated metal stripe perforated by three r...
AbstractTerahertz metamaterial sensing (TMS) is a new interdisciplinary technology. A TMS system emp...
This thesis serves to address the main challenges of the terahertz technology, providing new efficie...
Electromagnetic metamaterials have emerged as a powerful tool to tailor the electromagnetic material...
Compared to the neighboring infrared and microwave regions, the terahertz regime is still in need of...
Electromagnetic sensors provide information about the environment around us. Historically, THz has b...
Metamaterials (MM), artificial materials engineered to have properties that may not be found in natu...
Designing terahertz sensors with high sensitivity to detect nanoscale thin films and single biomolec...
Sensing technologies based on terahertz waves have immense potential due to their non-destructive, t...
Engineering metamaterials with tunable resonances are of great importance for improving the function...
The terahertz (THz) frequency range is incredibly important as it covers electromagnetic emissions t...
We demonstrate a silicon-based, single-layer anti-reflection coating that suppresses the reflectivit...
Here we present an alternative approach to design a freestanding transparent conducting device for w...
In this paper, we report on experimentally verified models, which assist in the design and fabricati...
Terahertz radiation has many unique properties not found in other parts of the electromagnetic spect...
A planar terahertz metamaterial sensor consisting of a corrugated metal stripe perforated by three r...
AbstractTerahertz metamaterial sensing (TMS) is a new interdisciplinary technology. A TMS system emp...
This thesis serves to address the main challenges of the terahertz technology, providing new efficie...
Electromagnetic metamaterials have emerged as a powerful tool to tailor the electromagnetic material...
Compared to the neighboring infrared and microwave regions, the terahertz regime is still in need of...
Electromagnetic sensors provide information about the environment around us. Historically, THz has b...
Metamaterials (MM), artificial materials engineered to have properties that may not be found in natu...
Designing terahertz sensors with high sensitivity to detect nanoscale thin films and single biomolec...
Sensing technologies based on terahertz waves have immense potential due to their non-destructive, t...
Engineering metamaterials with tunable resonances are of great importance for improving the function...