Maria Margaretha Suliyanti scite author profile

An experimental study has been carried out on the dynamical process taking place in the laser plasma generated by Transversely Excited Atmospheric CO2 laser (100 mJ, 50 ns) irradiation of a soft sample at surrounding helium pressure of 1 atm. It is shown that the presence of a copper subtarget behind the soft sample is crucial in raising the gushing speed of the atoms to the level adequate for the generation of shock wave laser plasma even at atmospheric pressure. It is also found that the time profiles of spatially integrated emission intensity of the target's atoms and gas atoms exhibit a characteristic dynamical process that consists of successive excitation and cooling stages even at such a high pressure, which is typical of shock wave laser plasma. It is therefore suggested that the generation of the laser plasma at atmospheric pressure is more likely due to the shock wave mechanism than to the widely known breakdown mechanism. Initial spectrochemical analysis of water from the blow off of a boiler system was also carried out, showing a detection limit of as low as 5 ppm for calcium.

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Some notes on the role of meta-stable excited state of helium atom in laser-induced helium gas breakdown spectroscopy

Ramli

Kagawa

Abdulmadjid

et al. 2007

Appl. Phys. B

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Experimental investigation of the nonuniform heating effect in laser flash thermal diffusivity measurements

Baba¹,

Kobayashi²,

Ono³

et al. 1993

Thermochimica Acta

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