System Size Dependence in Fermionic Superfluids at Unitarity While the use of super-cooled gasses as a tool for the study of macroscopic quantum effects has only become experimentally viable in recent years, theories involing such gasses have existed almost as long as quantum theory itself. Albert Einstein first proposed the concept of what is known today as a Bose-Einstein condensate; the driving principle behind his theory was a deliberate exploitation of the symmetric property of multiparticle bosonic wavefunctions. Specifically, since the Bose-Einstein statistics of bosons dic- tate that any arbitrary number of particles can occupy the same state, it is possible in an extremely low energy environment for particles on the order of Avagadro's number to all condense into the ground state. This state of matter is now called a Bose-Einstein condensate (hereafter referred to as a BEC). This state of matter is interesting because having such a large number of particles in the same state allows for the observation of macroscopic quantum effects.autSpencer, KwitthsSchmidt, KevindgcTreacy, MichaeldgcDawson, ColbyctbBarrett, The Honors CollegectbCollege of Liberal Arts and Sciencesenghttps://hdl.handle.net/2286/R.I.1577013 pages115093930571628716197137806In Copyright2012-12TextBCS HamiltonianSuper-cooled GassesEnglishcreative writingPhysics