Fermionic Superfluidity with Imbalanced Spin Populations | Zendy

Martin W. Zwierlein | Zendy; André Schirotzek | Zendy; Christian H. Schunck | Zendy; Wolfgang Ketterle | Zendy

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Fermionic Superfluidity with Imbalanced Spin Populations

Author(s) -

Martin W. Zwierlein,

André Schirotzek,

Christian H. Schunck,

Wolfgang Ketterle

Publication year - 2005

Publication title -

science

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 12.556

H-Index - 1186

eISSN - 1095-9203

pISSN - 0036-8075

DOI - 10.1126/science.1122318

Subject(s) - superfluidity , pairing , physics , fermion , feshbach resonance , spin (aerodynamics) , population , condensed matter physics , pauli exclusion principle , majorana , cooper pair , quantum vortex , fermi gas , quantum mechanics , superfluid helium 4 , superconductivity , electron , molecule , demography , sociology , thermodynamics

We established superfluidity in a two-state mixture of ultracold fermionic atoms with imbalanced state populations. This study relates to the long-standing debate about the nature of the superfluid state in Fermi systems. Indicators for superfluidity were condensates of fermion pairs and vortices in rotating clouds. For strong interactions, near a Feshbach resonance, superfluidity was observed for a broad range of population imbalances. We mapped out the superfluid regime as a function of interaction strength and population imbalance and characterized the quantum phase transition to the normal state, known as the Pauli limit of superfluidity.

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