Why is it easier to use helium ions rather than neutral helium atoms in such a microscope?

(a) Helium atoms are not electrically charged, and only electrically charged particles have wave properties.

(b) Helium atoms form molecules, which are too large to have wave properties.

(c) Neutral helium atoms are more difficult to focus with electric and magnetic fields.

(d) Helium atoms have much larger mass than helium ions do and thus are more difficult to accelerate.

Whereas electron microscopes make use of the wave properties of electrons, ion microscopes make use of the wave properties of atomic ions, such as helium ions (He⁺⁾, to image materials. A helium ion has a mass 7300 times that of an electron. In a typical helium-ion microscope, helium ions are accelerated by a high voltage of 10–50 kV and focused into a beam onto the sample to be imaged. At these energies, the ions don’t travel very far into the sample, so this type of microscope is used primarily for the surface imaging of biological structures. The use of helium ions with much greater energies (in the MeV range) has been proposed as a way to image the entire thickness of a sample, because these faster helium ions can pass all the way through biological samples such as cells. In this type of ion microscope, the energy lost as the ion beam passes through different parts of a cell can be measured and related to the distribution of material in the cell, with thicker parts of the cell causing greater energy loss.