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  5. MICROLIM - Mass Imbalanced CR-LI Fermi Mixtures (DFM.AD002.126)
Progetto di ricerca

MICROLIM - Mass Imbalanced CR-LI Fermi Mixtures (DFM.AD002.126)

Area tematica

Scienze fisiche e tecnologie della materia

Area progettuale

Scienze e tecnologie quantistiche (DFM.AD002)

Struttura responsabile del progetto di ricerca

Istituto nazionale di ottica (INO)

Responsabile di progetto

MATTEO ZACCANTI
Telefono: 05523081
E-mail: matteo.zaccanti@ino.cnr.it

Abstract

MASS IMBALANCED MIXTURES OF ULTRACOLD FERMIONIC ATOMS OPEN UNPRECEDENTED POSSIBILITIES TO EXTEND THE RESEARCH FIELD OF ULTRACOLD FERMI GASES.
MICROLIM WILL EXPLOIT A NOVEL MIXTURE OF ULTRACOLD FERMIONIC CHROMIUM AND LITHIUM ATOMS WITH TUNABLE INTERACTIONS TO UNVEIL AND EXPLORE A VARIETY OF NOVEL QUANTUM REGIMES. THE PECULIAR CR-LI MASS RATIO WILL UNIQUELY ENABLE THE EMERGENCE OF NOVEL, COLLISIONALLY STABLE, CLUSTER STATES, BOTH WITH FERMIONIC AND BOSONIC CHARACTER, FEATURING P-WAVE ORBITAL SYMMETRY. OUR MIXTURE WILL ALSO PAVE THE WAY TO A WEALTH OF MANY-BODY SURVEYS: FROM THE STUDY OF THE SO-CALLED BCS-BEC CROSSOVER WITH MASS ASYMMETRY, EXPECTED TO EXHIBIT VERY EXOTIC SUPERFLUID REGIMES, TO A VARIETY OF QUANTUM SYSTEMS CHARACTERIZED BY STRONG P-WAVE FEW-BODY CORRELATIONS. IN PARTICULAR, THE CR-LI SYSTEM IS VERY PROMISING TO DISCLOSE, FOR THE FIRST TIME, P-WAVE SUPERFLUIDITY IN A QUANTUM GAS. FINALLY, THE MAGNETIC NATURE OF CHROMIUM, COMBINED WITH A RICH SPECTRUM OF CR-LI FESHBACH RESONANCES, WILL ALLOW TO REALIZE GROUND STATE MOLECULES FEATURING BOTH MAGNETIC AND ELECTRIC DIPOLE MOMENTS. THIS MAKES CRLI MOLECULES EXCELLENT CANDIDATES FOR STUDIES OF LATTICE-SPIN MODELS AND PRECISION

Data inizio attività

01/03/2021

Parole chiave

ULTRACOLD FERMI GASES, FEW-BODY PHYSICS, STRONGLY CORRELATED MATERIALS

Ultimo aggiornamento: 15/05/2025