Suppression of Transverse Parasitic Oscillation in Fe:ZnSe and Fe:ZnS Lasers Based on Polycrystalline Active Elements: A Review

Autor:	A. E. Dormidonov, D. V. Savin, K N Firsov, I G Kononov, S. V. Kurashkin, S V Podlesnykh, E. M. Gavrishchuk, V. B. Ikonnikov
Rok vydání:	2020
Předmět:	Materials science Dopant business.industry Doping General Physics and Astronomy Laser law.invention law Optoelectronics Crystallite Disk laser Driven element Absorption (electromagnetic radiation) business Lasing threshold
Zdroj:	Physics of Wave Phenomena. 28:222-230
ISSN:	1934-807X 1541-308X
Popis:	The methods for suppressing transverse parasitic oscillation (TPO) at room temperature in Fe:ZnSe and Fe:ZnS lasers based on polycrystals doped using high-temperature diffusion have been considered. When active elements of this type are used, the development of TPO at large pump spots is due to the high dopant concentration on the surface of element end face and small length of the active medium as a whole (i.e., typical disk laser geometry). The TPO suppression methods under consideration are based on the fact that undoped Fe:ZnSe and Fe:ZnS exhibit significant absorption at the corresponding lasing wavelengths. Thus, the TPO development can be excluded by simple increase in the transverse size of active element and growth of active elements with several inner doped layers or an inner doped layer (layers) in the form of a meniscus. The problems of damage of active elements at large pump spots are discussed, and the potential of further increase in the radiation energy of Fe:ZnSe and Fe:ZnS lasers with room-temperature active elements is predicted.
Databáze:	OpenAIRE
Externí odkaz:	https://explore.openaire.eu/search/publication?articleId=doi_________::4872b07ce891e78dfb846c8e9407f64b https://doi.org/10.3103/s1541308x20030073 Zobrazit plný text záznamu Full text from SpringerLink