Terahertz (THz) technology refers to the use of electromagnetic waves in the terahertz (1 THz = 1012 Hz) region of the electromagnetic spectrum that covers the frequency range from roughly 0.1 to 50 ...
Measuring a spectrum in the terahertz range can be difficult ... Today, such a task is done very well with transistor technology at frequencies up to 200 GHz. However, it is difficult to further ...
Emission is then obtained at the difference frequency of the lasers, and this can be engineered to fall in the terahertz range. Terahertz spectroscopy has some important differences when compared ...
Terahertz waves are the electromagnetic radiation that lies in that area between radio frequencies and infra-red light. You might expect that since science has delivered so many breakthroughs in ...
Our laser based terahertz systems typically comprise the heart of compact radar ranges operating at, and above, frequencies of 1.5 THz. Staff: Thomas Goyette, Ph.D., Jason Dickinson, M.S. Working ...
Physicists in the US, Europe and Korea have produced a long-lasting light-driven magnetic state in an antiferromagnetic material for the first time. While their project started out as a fundamental ...
Among researchers, this is called the terahertz gap. In recent years, it was discovered that light sources in this frequency band can be applied to a wide range of areas such as ultra-high-speed ...