Not exact matches
Therefore, when an acoustic or
mechanical wave contacts the material, it perturbs it, generating the unique
properties that block sound
waves and
mechanical vibrations of certain frequencies from passing through.
Due to their quantum
mechanical wave - like
properties, when electrons are scattered off a crystal, they interfere with each other to create a diffraction pattern.
The magnetic field compresses the metamaterial, but does not constrain it, enabling an acoustic or
mechanical wave to perturb the material and generate unique
properties, including negative modulus and negative density that blocks sound
waves and
mechanical vibrations of certain frequencies from passing through.
Put another way, how all the interfering
waves and probabilities of occupying available quantum states make a transition to a non-quantum
mechanical material
property.
of radioactive wastes, and non-radioactive wastes from nuclear facilities S13 Hydro energy S14 Solar energy S15 Geothermal energy S16 Tidal and
wave power S17 Wind energy S20 Fossil - fueled power plants S21 Specific nuclear reactors and associated plants / of pores, well formed grains and boundaries and good
mechanical properties were obtained.