Neutrino energy reconstruction requires accurate charged particle identification.

Also the TPCs can be used for particle identification.

The different traces that particles leave in each layer of the detector allow for effective particle identification and accurate measurements of energy and momentum.

Cherenkov radiation is commonly used in experimental particle physics for particle identification.

Quark flavour tagging, such as B-tagging, is an example of particle identification in experimental particle physics.

It is used for particle identification of low-momentum tracks.

This particle identification is essential for the detailed understanding of the intrinsic physics of the structure and interactions of elementary particles.

Glass scintillators are however sensitive to electrons and γ rays as well (pulse height discrimination can be used for particle identification).

It is a two-level magnetic spectrometer with calorimeters in both levels and particle identification in the first level.

Instead, single particle identification and correlation are implemented, which set limits on particle number density.