A) Liquid B) Solid C) Plasma D) Gas
A) A fundamental particle discovered in high-energy experiments B) A type of dark matter C) A collective excitation that behaves like a particle D) An extraterrestrial particle
A) The random distribution of magnetic fields in a superconductor B) The expulsion of magnetic fields from the interior of a superconductor C) The creation of magnetic fields within a superconductor D) The enhancement of magnetic fields in a superconductor
A) The highest energy state occupied by an electron at absolute zero temperature B) The lowest energy state available to an electron C) A type of quasiparticle D) A theoretical point beyond which electron energies can go
A) An electromagnetic wave B) A repeating arrangement of atoms or molecules in a solid material C) A form of dark matter D) A type of elementary particle
A) An elusive dark matter particle B) Quanta of vibrational energy in a crystal lattice C) A type of fermion D) Particles that carry electric charge
A) The behavior of particles in extreme conditions B) The energy range in a material where no electron states can exist C) The range of charges in a semiconductor material D) The location of a semiconductor company
A) A pair of particles with the same charge that repel each other B) A type of dark matter pair C) A pair of exotic particles D) A pair of electrons with opposite spins and momenta that form a bound state
A) A principle of energy conservation B) A principle of dark matter interactions C) A rule that states no two identical fermions can occupy the same quantum state simultaneously D) A rule for measuring conductivity |