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Ultracold field-linked tetratomic molecules

Xing-Yan Chen, Shrestha Biswas, Sebastian Eppelt, Andreas Schindewolf, Fulin Deng, Tao Shi, Su Yi, Timon Hilker, Immanuel Bloch, Xinyu Luo

2024Nature31 citationsDOIOpen Access PDF

Abstract

Abstract Ultracold polyatomic molecules offer opportunities 1 in cold chemistry 2,3 , precision measurements 4 and quantum information processing 5,6 , because of their rich internal structure. However, their increased complexity compared with diatomic molecules presents a challenge in using conventional cooling techniques. Here we demonstrate an approach to create weakly bound ultracold polyatomic molecules by electroassociation 7 (F.D. et al., manuscript in preparation) in a degenerate Fermi gas of microwave-dressed polar molecules through a field-linked resonance 8–11 . Starting from ground-state NaK molecules, we create around 1.1 × 10 3 weakly bound tetratomic (NaK) 2 molecules, with a phase space density of 0.040(3) at a temperature of 134(3) nK, more than 3,000 times colder than previously realized tetratomic molecules 12 . We observe a maximum tetramer lifetime of 8(2) ms in free space without a notable change in the presence of an optical dipole trap, indicating that these tetramers are collisionally stable. Moreover, we directly image the dissociated tetramers through microwave-field modulation to probe the anisotropy of their wavefunction in momentum space. Our result demonstrates a universal tool for assembling weakly bound ultracold polyatomic molecules from smaller polar molecules, which is a crucial step towards Bose–Einstein condensation of polyatomic molecules and towards a new crossover from a dipolar Bardeen–Cooper–Schrieffer superfluid 13–15 to a Bose–Einstein condensation of tetramers. Moreover, the long-lived field-linked state provides an ideal starting point for deterministic optical transfer to deeply bound tetramer states 16–18 .

Topics & Concepts

Polyatomic ionDipolePhysicsChemical polarityAtomic physicsMoleculeDiatomic moleculeChemistryResonance (particle physics)Ultracold atomQuantum mechanicsQuantumCold Atom Physics and Bose-Einstein CondensatesAtomic and Subatomic Physics ResearchQuantum, superfluid, helium dynamics