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Showing 1–6 of 6 results
Advanced filters: Author: Shintaro Taie Clear advanced filters

  • The interplay of non-Hermitian physics and open quantum dynamics has been fruitful in ultracold atoms. Expanding on previous demonstrations of controlled dissipation, the authors demonstrate here gain engineering by creating Bose–Einstein condensates within a synthetic spin lattice.

    • Takuto Tsuno
    • Shintaro Taie
    • Yoshiro Takahashi
    ResearchOpen Access
    Nature Communications
    Volume: 17, P: 1-11

  • In spatial adiabatic passage, matter wave is transported between states without populating the intermediate quantum state. Here the authors demonstrate the spatial adiabatic passage using ultracold 171Yb atoms in Lieb-type optical lattices.

    • Shintaro Taie
    • Tomohiro Ichinose
    • Yoshiro Takahashi
    ResearchOpen Access
    Nature Communications
    Volume: 11, P: 1-6

  • Charge transport in a cyclically time-modulated periodic potential, also known as a topological Thouless pump, has been realized in an ultracold gas of fermionic atoms.

    • Shuta Nakajima
    • Takafumi Tomita
    • Yoshiro Takahashi
    Research
    Nature Physics
    Volume: 12, P: 296-300

  • A multicomponent gas of ytterbium atoms accommodates more entropy in its spin degrees of freedom than does its two-component analogue, leading to a lower effective temperature, and an easy route for cooling ultracold fermions towards a Mott-insulating state.

    • Shintaro Taie
    • Rekishu Yamazaki
    • Yoshiro Takahashi
    Research
    Nature Physics
    Volume: 8, P: 825-830

  • In a Mott insulator, strong repulsive interactions suppress conductivity. Such behaviour has been demonstrated, individually, for both bosonic and fermionic atoms confined to optical lattices. Now, a dual Mott insulator of bosons and fermions has been realized, and interspecies interaction are found to markedly modify each Mott insulator.

    • Seiji Sugawa
    • Kensuke Inaba
    • Yoshiro Takahashi
    Research
    Nature Physics
    Volume: 7, P: 642-648