Title :
Materials Development for Mid-IR Solid-State Lasers
Author :
Hommerich, U. ; Ei Ei Nyein ; Amedzake, P. ; Trivedi, S.B. ; Bluiett, A.G. ; Zavada, J.M.
Author_Institution :
Hampton Univ., Hampton
Abstract :
Solid-state lasers operating in the mid-IR wavelength region (3-5 mum) continue to be of great current interest for applications in laser remote sensing of chemical and biological agents, IR countermeasures, and bio-medical procedures. The development of mid-IR solid-state lasers based on oxide and fluoride crystals is hampered by large non-radiative decay rates through multi-phonon emission. On the contrary, rare earth (RE) doped crystals with low maximum phonon energies have shown efficient mid-IR emission as well as lasing at room temperature [1-9]. Examples of emission transitions in the 3-5 mum spectral region are indicated in Fig. 1 for the rare earth ions Pr3+, Nd3+, Dy3+ and Er3+.
Keywords :
dysprosium; erbium; infrared spectra; multiphoton processes; neodymium; praseodymium alloys; solid lasers; Dy3+; Er3+; Nd3+; Pr3+; biological agents; chemical agents; fluoride crystals; laser remote sensing; mid-infrared lasers; multiphonon emission; nonradiative decay rates; oxide crystals; rare earth doped crystals; rare earth ions; solid-state lasers; temperature 293 K to 298 K; Biological materials; Chemical lasers; Crystalline materials; Crystals; Laser applications; Optical materials; Phonons; Remote sensing; Solid lasers; Temperature;
Conference_Titel :
Lasers and Electro-Optics Society, 2007. LEOS 2007. The 20th Annual Meeting of the IEEE
Conference_Location :
Lake Buena Vista, FL
Print_ISBN :
978-1-4244-0925-9
Electronic_ISBN :
1092-8081
DOI :
10.1109/LEOS.2007.4382467
