"Fermionically" Example Sentences
1. The electrons in atoms behave fermionically.
2. The fermionically interacting particles are the building blocks of matter.
3. At extremely low temperatures, fermionically cold atoms exhibit quantum effects.
4. Fermionically charged particles repel each other due to the Pauli Exclusion Principle.
5. Fermionically coupled systems are used in quantum simulations.
6. The elementary fermionically charged particles are the up and down quarks.
7. The fermionically bound state of a nucleus is called a hadron.
8. In a fermionically condensed state, particles move in unison.
9. The fermionically degenerate gas in a neutron star is incredibly dense.
10. Fermionically excited states of an atom emit light when they decay.
11. The density of a fermionically interacting gas has a limit known as the Fermi Sea.
12. The Fermi-Dirac distribution describes the behavior of fermionically interacting particles.
13. The fermionically interacting particles in a superconductor form Cooper pairs.
14. The fermionically interacting electrons in metals conduct electricity.
15. The fermionically interacting particles in a Bose-Einstein condensate sometimes behave like bosons.
16. Fermionically interacting systems can be described by the Dirac equation.
17. The electrons in a metal behave fermionically, contributing to its characteristic properties.
18. Fermionically interacting neutrinos are incredibly difficult to detect.
19. The Fermi energy is the maximum energy of fermionically interacting particles in a system.
20. The fermionically interacting particles in a topological insulator are protected by symmetries.
21. Atoms with an odd number of fermions are fermionically magnetic.
22. The fermionically interacting particles in a degenerate electron gas exhibit unusual properties.
23. Fermionically interacting particles obey Fermi-Dirac statistics.
24. The fermionically interacting particles in a semiconductor are responsible for its electrical properties.
25. A fermionically interacting gas can undergo Bose Einstein condensation.
26. The fermionically interacting electrons in a magnetic material align to create a magnetic field.
27. Fermionically interacting particles in a lattice can undergo a Peierls transition.
28. The fermionically charged particles in a superfluid are responsible for its unusual properties.
29. Fermionically interacting particles in a quantum dot exhibit Coulomb blockade.
30. Fermionically interacting particles in a thermoelectric material can generate an electrical current from temperature differences.
Common Phases
1. The electrons in the atom behave
fermionically; they follow the Pauli exclusion principle.
2. The energy levels of fermions in a system are
fermionically spaced; this is a consequence of their fractional spin.
3. In a fermionic superfluid, each particle is
fermionically paired with another; this allows for the system to exhibit zero viscosity.
4. Fermionic particles cannot occupy the same quantum state simultaneously; this is known as fermionic statistics and applies to electrons, quarks, and other particles with half-integer spin.
5. The behavior of a many-fermion system is determined by the fermionic nature of the particles; this includes the electronic structure of atoms and the behavior of neutron stars.