Therefore, the presence of any diffraction effects by matter demonstrated the wave-like nature of matter.

In this case, the de Broglie wavelength may be large enough that the particle's wave-like nature gives observable effects.

The wave-like nature of the electron allows it to pass through two parallel slits simultaneously, rather than just one slit as would be the case for a classical particle.

All quantum mechanical systems undergo fluctuations even in their ground state and have an associated zero-point energy, a consequence of their wave-like nature.

This demonstrated the wave-like nature of neutrons for the first time and was another experimental proof that not only photons can be described by waves, but also massive particles.

In this work he demonstrated that light can be considered as particles that have a "wave-like nature".

The popular name undulant fever originates from the characteristic undulance (or "wave-like" nature) of the fever, which rises and falls over weeks in untreated patients.

The latter reveals that they also have a wave-like nature and do not exhibit standard fluid properties, such as friction.

It was surmised from the interaction of light with atoms that electrons also had both a particle-like and a wave-like nature.

Helmholtz's pupil, Hertz, discovered that sound and electricity have a wave-like nature in common.