Title :
Evidence for continuous visible chemical lasing from the fast near resonant energy transfer pumping of atomic sodium
Author :
Shen, K.K. ; Wang, H. ; Gole, J.L.
Author_Institution :
Sch. of Phys., Georgia Inst. of Technol., Atlanta, GA, USA
fDate :
8/1/1993 12:00:00 AM
Abstract :
Energy transfer from selectively formed metastable states of SiO is used to pump sodium-atom laser amplifiers at λ≈569 nm (4d2D-3p2P), λ≈616 nm (5s2S-3p2 P), and λ≈819 nm (3d2D -3p2P). The a3Σ+ and b3Π states of SiO are generated in high yield from the Si+N2O→SiO+N2 reaction. The energy stored in the triplet states is transferred in a highly efficient collisional process to pump sodium atoms to their lowest excited 3d2 D, 4d2D, and 5s2S states. Adopting a sequence in which high concentrations of silicon and sodium atoms are mixed and oxidized, a continuous amplification (gain condition) is monitored which suggests the creation of a population inversion among the receptor sodium-atom energy levels and forms the basis for full cavity oscillation on the Na4 d2D-3p2P transition at 569 nm
Keywords :
chemical lasers; optical pumping; population inversion; sodium; triplet state; 569 nm; 616 nm; N2O; Na; Na atom laser amplifiers; Si; SiO; collisional process; continuous amplification; continuous visible chemical lasing; energy stored; fast near resonant energy transfer pumping; full cavity oscillation; gain condition; high concentrations; high yield; laser transitions; oxidized; population inversion; receptor sodium-atom energy levels; selectively formed metastable states; triplet states; vapour lasers; Atom lasers; Atomic beams; Chemical lasers; Copper; Energy exchange; Laser excitation; Laser transitions; Metastasis; Pump lasers; Resonance;
Journal_Title :
Quantum Electronics, IEEE Journal of
