W. L. Clevenger scite author profile

A new method for laser-enhanced ionization detection of mercury atoms in an inert gas atmosphere is described. The method, which is based on the avalanche amplification of the signal resulting from the ionization from a selected Rydberg level reached by a three-step laser excitation of mercury vapor in a simple quartz cell, can be applied to the determination of this element in various matrices by the use of conventional cold atomization techniques. The overall (collisional + photo) ionization efficiency is investigated at different temperatures, and the avalanche amplification effect is reported for Ar and P-10 gases at atmospheric pressure. It is shown that the amplified signal is related to the number of charges produced in the laser-irradiated volume. Under amplifier noise-limited conditions, a detection limit of ∼15 Hg atoms/laser pulse in the interaction region is estimated.

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Temporal behavior of mercury LEI signal in a buffer gas

Clevenger¹,

Mordoh²,

Matveev³

et al. 1997

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Laser-enhanced ionization detection of magnesium atoms by a combination of electrothermal vaporization and flame atomization

Riter¹,

Clevenger²,

Mordoh³

et al. 1996

J. Anal. At. Spectrom.

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Analytical time-resolved laser enhanced ionization spectroscopy I. Collisional ionization and photoionization of the Hg Rydberg states in a low pressure gas

Clevenger

Mordoh

Matveev

et al. 1997

Spectrochimica Acta Part B: Atomic Spectroscopy

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W. L. Clevenger

Trace Determination of Mercury: A Review

Laser-Enhanced Ionization of Mercury Atoms in an Inert Atmosphere with Avalanche Amplification of the Signal

Temporal behavior of mercury LEI signal in a buffer gas

Laser-enhanced ionization detection of magnesium atoms by a combination of electrothermal vaporization and flame atomization

Analytical time-resolved laser enhanced ionization spectroscopy I. Collisional ionization and photoionization of the Hg Rydberg states in a low pressure gas

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