Abstract: A continuous wave laser based on the electronic I*(2P½)?I(2P 3/2) transition of atomic iodine at 1.315 microns from the NCl(a1?)+I(2P 3/2) energy transfer reaction using a transverse flow device having gas flow from an upstream subsonic combustor section through a converging-diverging supersonic slit nozzle to a downstream supersonic section and an intersecting optical resonator. Laser operation is achieved through the transformation of the gas phase chemical reagents, D2 (deuterium), F2 (fluorine), NF3 (nitrogen trifluoride), DCl (deuterium chloride) HI (hydrogen iodide) in the subsonic section and HN3 (hydrogen azide) in the supersonic section.

Abstract: An all gas phase iodine cw laser operating on the electronic I(2P3/2)−I*(2P1/2) transition of atomic iodine at 1.315 &mgr;m was described. The laser is based on the energy transfer reaction between metastable NCl(a1&Dgr;) and ground state I(2P3/2) atoms. This all gas phase laser has a number of advantages over previous aqueous-based chemical oxygen iodine lasers, including lighter weight, zero-gravity operation, and heat rejection in the exhaust.

Abstract: Method and apparatus for digital sample rate conversion. A mixed signal tester employing digital sample rate conversion is also disclosed. According to the invention, variable phase jitter is introduced into an input digital signal to produce an intermediate signal at a second sampling rate. The intermediate signal is then low pass filtered to produce the output signal. This technique is used in a mixed signal tester where one period of a stimulus signal is stored in a digital memory. The frequency of the analog stimulus signal is dictated by the rate at which the digital signal is retrieved from the memory. Sample rate conversion is used to convert the signal retrieved from memory, regardless of the rate at which it was retrieved, to the sampling rate for which a digital to analog converter has been calibrated.