Gyrotrons for High-Power Terahertz Science and Technology at FIR UF

TL;DR

This paper reviews recent advancements in gyrotrons at FIR UF, highlighting their role as high-power, tunable Terahertz sources enabling diverse applications in spectroscopy, material science, and medicine.

Contribution

It presents new developments in gyrotron technology at FIR UF, demonstrating their capabilities as coherent, high-power, frequency-tunable Terahertz sources for various scientific and technological applications.

Findings

Gyrotrons achieve high power and tunability in the Terahertz range.

Applications include high-precision spectroscopy and medical technologies.

The research demonstrates the versatility of gyrotrons in multiple fields.

Abstract

In this paper, we present the recent progress in the development of a series of gyrotrons at FIR UF that have opened the road to many novel applications in the high-power Terahertz science and technology. The current status of the research in this actively developing field is illustrated by the most representative examples in which the developed gyrotrons are used as powerful and frequency tunable sources of coherent radiation operating in a CW regime. Among them are high-precision spectroscopic techniques (most notably DNP-NMR, ESR, XDMR, and studies of the hyperfine splitting of the energy levels of positronium), treatment and characterization of advanced materials, new medical technologies.