fermionic condensate

Fermionic condensates are called the sixth state of matter.

The discovery of a new form of matter, Fermionic condensate, has been announced.

However, this was not a true fermionic condensate.

First to observe a "fermionic condensate" formed from pairs of atoms in a gas.

Jin quickly went on to create the first fermionic condensate composed of Cooper pairs.

Superfluids (like Fermionic condensate) and the quark-gluon plasma are examples.

There, he worked on the creation of a fermionic condensate of ultracold atoms.

In 2004, the Innsbruck scientists achieved a Fermionic condensate.

Fermionic condensates are a type of superfluid.

Based on this information, they can hypothesize (make an educated guess) that fermionic condensates will flow without any viscosity as well.

Fermionic condensate makes its debut.

The first atomic fermionic condensate was invented by Deborah S. Jin in 2003.

More recently, Fermionic condensate superfluids have been formed at even lower temperatures by the rare isotope helium-3 and by lithium-6.

A fermionic condensate is a superfluid phase formed by fermionic particles at low temperatures.

A fermionic condensate is similar to the Bose-Einstein condensate but composed of fermions.

When α(μ) becomes strong at scale Λ F, the fermionic condensate forms.

The mechanism is somewhat analogous to chiral symmetry breaking and is an example of a fermionic condensate.

In the early 2000s, physicists created a Fermionic condensate from pairs of ultra-cold fermionic atoms.

DeMarco worked with Deborah S. Jin to create the first true Fermionic condensate.

Unlike the Bose-Einstein condensates, fermionic condensates are formed using fermions instead of bosons.

I heard of, too, Bose-Einstein condensate, fermionic condensate, but I am not sure if it has been proved.

However, advances in experimental techniques have revealed other previously theoretical phases, such as Bose-Einstein condensates and fermionic condensates.

Note that the above formula is only applicable to classical ideal gases and not Bose-Einstein condensate or Fermionic condensate.

Bose-Einstein condensates and fermionic condensates are phases of matter that apply to particles called bosons and fermions, respectively.

Bose-Einstein condensates and fermionic condensates occur at incredibly low temperatures (about 4 Kelvin, which is the same as -452 Fahrenheit).