Jun Hui See Toh scite author profile

Jun Hui See Toh

4Publications

51Citation Statements Received

231Citation Statements Given

How they've been cited

How they cite others

171

222

Affiliations

University of Washington, Seattle University

Publications

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Feshbach Resonances in p -Wave Three-Body Recombination within Fermi-Fermi Mixtures of Open-Shell Li6 and Closed-Shell
Green
¹
,
Li
²
,
Toh
³

et al. 2020
Phys. Rev. X
54
1
27
0
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We report on the observation of magnetic Feshbach resonances in a Fermi-Fermi mixture of ultracold atoms with extreme mass imbalance and on their unique p-wave dominated three-body recombination processes. Our system consists of open-shell alkali-metal 6 Li and closed-shell 173 Yb atoms, both spin polarized and held at various temperatures between 1 and 20 μK. We confirm that Feshbach resonances in this system are solely the result of a weak separation-dependent hyperfine coupling between the electronic spin of 6 Li and the nuclear spin of 173 Yb. Our analysis also shows that three-body recombination rates are controlled by the identical fermion nature of the mixture, even in the presence of s-wave collisions between the two species and with recombination rate coefficients outside the Wigner threshold regime at our lowest temperature. Specifically, a comparison of experimental and theoretical line shapes of the recombination process indicates that the characteristic asymmetric line shape as a function of applied magnetic field and a maximum recombination rate coefficient that is independent of temperature can only be explained by triatomic collisions with nonzero, p-wave total orbital angular momentum. The resonances can be used to form ultracold doublet ground-state molecules and to simulate quantum superfluidity in mass-imbalanced mixtures.

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Two-photon photoassociation spectroscopy of the Σ+2 YbLi molecular ground state

et al. 2019

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We report on measurements of the binding energies of several weakly bound vibrational states of the paramagnetic 174 Yb 6 Li molecule in the electronic ground state using two-photon spectroscopy in an ultracold atomic mixture confined in an optical dipole trap. We theoretically analyze the experimental spectrum to obtain an accurate description of the long-range potential of the ground state molecule. Based on the measured binding energies, we arrive at an improved value of the interspecies s-wave scattering length as0 = 30 a0. Employing coherent two-photon spectroscopy we also observe the creation of "dark" atom-molecule superposition states in the heteronuclear Yb-Li system. This work is an important step towards the efficient production of ultracold YbLi molecules via association from an ultracold atomic mixture.

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Many-body dynamical delocalization in a kicked one-dimensional ultracold gas

et al. 2022

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Observation of Many-body Dynamical Delocalization in a Kicked Ultracold Gas

Toh¹,

McCormick²,

Tang³

et al. 2021

Preprint

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Jun Hui See Toh

Feshbach Resonances in p -Wave Three-Body Recombination within Fermi-Fermi Mixtures of Open-Shell Li6 and Closed-Shell
Green
¹
,
Li
²
,
Toh
³

et al. 2020
Phys. Rev. X
54
1
27
0
View full text Add to dashboard Cite

Two-photon photoassociation spectroscopy of the Σ+2 YbLi molecular ground state

Many-body dynamical delocalization in a kicked one-dimensional ultracold gas

Observation of Many-body Dynamical Delocalization in a Kicked Ultracold Gas

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Jun Hui See Toh

Feshbach Resonances in p -Wave Three-Body Recombination within Fermi-Fermi Mixtures of Open-Shell Li6 and Closed-Shell Green1, Li2, Toh3 et al. 2020Phys. Rev. X541270View full textAdd to dashboardCite

Two-photon photoassociation spectroscopy of the Σ+2 YbLi molecular ground state

Many-body dynamical delocalization in a kicked one-dimensional ultracold gas

Observation of Many-body Dynamical Delocalization in a Kicked Ultracold Gas

Contact Info

Product

Resources

About

Feshbach Resonances in p -Wave Three-Body Recombination within Fermi-Fermi Mixtures of Open-Shell Li6 and Closed-Shell
Green
¹
,
Li
²
,
Toh
³

et al. 2020
Phys. Rev. X
54
1
27
0
View full text Add to dashboard Cite