Add to ORKGIn this paper the potential advantages of imaging outdoor environments in the low Terahertz (low-THz) range of frequencies (0.1 THz-1 THz) are discussed, in terms of the device parameters available at these frequencies and also in terms of the scattering expected by THz waves propagating in real-world environments. The results presented confirm that imaging surfaces with surface characteristics similar to those found in outdoor environments, with low-THz devices, aids in the interpretation of the obtained image whilst keeping the image processing complexity low
Lying between the microwave and far infrared (IR) regions, the terahertz gap is a relatively unexp...
Terahertz (THz) imaging offers many attractive advantages over existing modalities especially in its...
Terahertz (THz) radiation has been widely applied in the areas of spectroscopy, sensing and imaging....
In this paper the potential advantages of imaging outdoor environments in the low Terahertz (low-THz...
In this letter, we report initial experimental results which provide the foundation for low-terahert...
abstract: The objective of this work is to design a novel method for imaging targets and scenes whic...
In this paper low-THz FMCW radar is introduced for automotive applications. Ability to produce a sho...
Traditional imaging systems, such as the eye or cameras, image scenes that lie in the direct line-of...
THz region (1 mm - 0.1 mm, or 300 GHz and 3 THz) of the electromagnetic spectrum attracts applicatio...
This study explores the scattering of signals within the mm and low Terahertz frequency range, repre...
Intensive research and development activity on low-terahertz (0.1-1 THz) electronics, including rece...
The spatial, temporal, and spectroscopic characteristics associated with pulsed THz (100 GHz –70 THz...
The expansion of the synthetic aperture radar (SAR) to the emerging THz spectrum has enabled a new e...
Abstract The millimeter wave (MMW) band of frequencies extends from 30 GHz to 300 GHz, with some fuz...
The spatial resolution of conventional terahertz (THz) images is limited by the wavelength of THz ra...
Lying between the microwave and far infrared (IR) regions, the terahertz gap is a relatively unexp...
Terahertz (THz) imaging offers many attractive advantages over existing modalities especially in its...
Terahertz (THz) radiation has been widely applied in the areas of spectroscopy, sensing and imaging....
In this paper the potential advantages of imaging outdoor environments in the low Terahertz (low-THz...
In this letter, we report initial experimental results which provide the foundation for low-terahert...
abstract: The objective of this work is to design a novel method for imaging targets and scenes whic...
In this paper low-THz FMCW radar is introduced for automotive applications. Ability to produce a sho...
Traditional imaging systems, such as the eye or cameras, image scenes that lie in the direct line-of...
THz region (1 mm - 0.1 mm, or 300 GHz and 3 THz) of the electromagnetic spectrum attracts applicatio...
This study explores the scattering of signals within the mm and low Terahertz frequency range, repre...
Intensive research and development activity on low-terahertz (0.1-1 THz) electronics, including rece...
The spatial, temporal, and spectroscopic characteristics associated with pulsed THz (100 GHz –70 THz...
The expansion of the synthetic aperture radar (SAR) to the emerging THz spectrum has enabled a new e...
Abstract The millimeter wave (MMW) band of frequencies extends from 30 GHz to 300 GHz, with some fuz...
The spatial resolution of conventional terahertz (THz) images is limited by the wavelength of THz ra...
Lying between the microwave and far infrared (IR) regions, the terahertz gap is a relatively unexp...
Terahertz (THz) imaging offers many attractive advantages over existing modalities especially in its...
Terahertz (THz) radiation has been widely applied in the areas of spectroscopy, sensing and imaging....