V. V. Kononenko, E. V. Zavedeev, M. A. Dezhkina, V. Bulgakova, M. S. Komlenok, T. V. Kononenko, V. V. Bukin, V. I. Konov, S. V. Garnov, A. A. Khomich
- Prokhorov General Physics Institute of the Russian Academy of Sciences, Moscow
- Institute of Radioengineering and Electronics of Russian Academy of Sciences, Fryazino Department
Abstract: We demonstrate for the first time the ability of semiconductor diamond to convert near-IR laser radiation into terahertz radiation. A set of photoconductive antennas based on single-crystal diamonds doped with boron (∼1 ppm) is assembled and tested under pumping conditions with ultrashort (τopt ≈ 150 fs) radiation pulses with a wavelength of 800 nm and a pulsed voltage (τE ≈ 10 ns, Ebias ≈ 10 kV·cm–1). The performance of the boron-doped emitters is compared with recently implemented nitrogen-doped diamond antennas pumped with 400 nm radiation pulses, since substituted nitrogen requires a much higher quantum energy for single-photon excitation of carriers. The results obtained are another step towards the use of diamond as a material for high-performance photoconductive antennas.
Keywords: photoconductive antennas, diamond, doping, terahertz sources
Received: 19.12.2022
Accepted: 19.12.2022