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27 Μαΐ 2024 · Fermionic condensates represent a captivating phase of matter where particles known as fermions pair up and behave collectively in a quantum state. This phenomenon, observed at extremely low temperatures, challenges our conventional understanding of matter and opens new avenues in quantum physics.
A fermionic condensate (or Fermi–Dirac condensate) is a superfluid phase formed by fermionic particles at low temperatures. It is closely related to the Bose–Einstein condensate, a superfluid phase formed by bosonic atoms under similar conditions.
7 Αυγ 2020 · In electron systems featuring a fermion condensate, the magnitude of the gap appearing in the single-particle spectrum owing to Cooper pairing is shown to be much larger than that in Bardeen–Cooper–Schrieffer (BCS) theory.
Fermionic Condensate: A quantum state of matter formed by pairing fermions under ultra-cold conditions, allowing them to behave similarly to bosons. Key Characteristics: Includes superfluidity, superconductivity, and anisotropic pairing, which have implications for future technological advancements.
27 Αυγ 2023 · Expanding the concept of fermionic condensates beyond the atomic gases of fermions, numerous examples can be found where fermions come to collectively occupy low-energy quantum levels. The first, as already said, are the electrons in a superconductor.
The only way to make a fermionic condensate is to try and persuade the fermionic atoms to form bosonic pairs. The pairing of electrons (which are fermions) to produce a condensate is a crucial feature of superconductivity, so a fermionic condensate would give us crucial insights into the mechanisms behind superconductivity, as well as ...
These condensates offer insights into frictionless transport, advanced electrical applications, and the fundamental behavior of matter. Their study could impact quantum computing, precision measurement, and the development of lossless electrical conductors.
