Laser ablation mass spectrometer (LAMS) as a standoff analyzer in space missions for airless bodies

A laser ablation mass spectrometer (LAMS) based on a time-of-flight (TOF) analyzer with adjustable drift length is proposed as a standoff elemental composition sensor for space missions to airless bodies. It is found that the use of a retarding potential analyzer in combination with a two-stage reflectron enables LAMS to be operated at variable drift length. For field-free drift lengths between 33 cm and 100 cm, at least unit mass resolution can be maintained solely by adjustment of internal voltages, and without resorting to drastic reductions in sensitivity. Therefore, LAMS should be able to be mounted on a platform or robotic arm and analyze samples at standoff distances of up to several tens of cm, permitting high operational flexibility and wide area coverage of heterogeneous regolith on airless bodies.

Graphical abstractFigure optionsDownload full-size imageDownload high-quality image (210 K)Download as PowerPoint slideHighlights► Calculation has been done on a laser ablation mass spectrometer (LAMS). ► LAMS can be operated at variable drift length between 33 cm and 100 cm. ► Unit mass resolutions can be maintained by adjustment of internal voltages. ► LAMS is proposed as a standoff elemental composition sensor for space missions to airless bodies.