Multiphoton laser ionization mass spectrometry of cesium iodide and atomic iodine

M. Balooch, D.R. Olander
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引用次数: 5

Abstract

Using the technique of laser ionization mass spectrometry, a study of multiphoton ionization (MPI) of atomic iodine and cesium iodide was conducted with a tunable dye laser. One of the objectives was to determine if this technique provides more selective ionization of the components of such a mixture than does conventional electron bombardment. It was found that under intense photon irradiation, CsI fragments to I+ by a multistep process. The first step is dissociation of CsI which is followed by multiphoton ionization of the liberated atomic iodine. Because of this mechanism, the atomic iodine in a CsI + I mixture with less than 10% iodine cannot be detected by MPI at the available photon wavelengths (2800–3000 Å). However, operation at wavelengths which preclude dissociation of CsI should greatly improve the selectivity. The cross-section for two-photon excitation of iodine at 3047 Å was determined to be 4 × 10−50 cm4 s−1.

碘化铯和原子碘的多光子激光电离质谱分析
利用激光电离质谱技术,用可调谐染料激光器对碘原子和碘化铯进行了多光子电离研究。其中一个目标是确定这种技术是否比传统的电子轰击更能选择性地电离这种混合物的成分。结果表明,在强光子照射下,CsI经过多步分解成I+。第一步是CsI的解离,然后是释放的碘原子的多光子电离。由于这一机制,在可用光子波长(2800-3000 Å)下,在碘含量低于10%的CsI + I混合物中,原子碘不能被MPI检测到。然而,在阻止CsI解离的波长下操作,将大大提高选择性。碘在3047 Å处的双光子激发截面为4 × 10−50 cm4 s−1。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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