Monatomic and Gas Cluster Ion Beam

XPS analysis of new materials

A dual mode ion source removes both hard and soft materials without altering the chemistry of the remaining surface. XPS systems fitted with a source producing monatomic argon ions work particularly well for inorganic materials. Gas cluster ion sources minimize the damage by reducing the energy going into the surface.

By making our projectile much heavier, using a weakly bound cluster of gas atoms, we can still remove material but we can spread the energy and single charge across the whole cluster. This vastly decreases the "damage zone" in the remaining surface, as there is significantly less energy imparted into the material by the cluster impact, and results in XPS spectra that accurately represent the real surface chemistry.

Depth profiling with monatomic and gas cluster ion beam

Devices are not usually based around one type of material, but may be a mixture of organic and inorganic compounds. One example, shown here, is the analysis of an organic FET showing both monatomic and gas cluster ion etching.

The twin operating modes of the MAGCIS source facilitate depth profiles of both organic and inorganic materials. The Thermo Scientific Avantage XPS data system controls simple mode switching during the experiment.

The MAGCIS source performs the first part of the profile in cluster mode to preserve the sensitive organo-metallic chemistry, before changing to monatomic mode for the inorganic layer, creating a full profile of the entire device.