Line shapes of optical Feshbach resonances near the intercombination transition of bosonic ytterbium

M. Borkowski; R. Ciuryło; P. S. Julienne; S. Tojo; K. Enomoto; Y. Takahashi

doi:10.1103/PhysRevA.80.012715

Line shapes of optical Feshbach resonances near the intercombination transition of bosonic ytterbium

M. Borkowski^*, R. Ciuryło, P. S. Julienne, S. Tojo, K. Enomoto, Y. Takahashi

^*Corresponding author for this work

Program of Physics

Research output: Contribution to journal › Article › peer-review

36 Scopus citations

Abstract

The properties of bosonic ytterbium photoassociation spectra near the intercombination transition S1 0 - P3 1 are studied theoretically at ultralow temperatures. We demonstrate how the shapes and intensities of rotational components of optical Feshbach resonances are affected by mass tuning of the scattering properties of the two colliding ground-state atoms. Particular attention is given to the relationship between the magnitude of the scattering length and the occurrence of shape resonances in higher partial waves of the van der Waals system. We develop a mass-scaled model of the excited-state potential that represents the experimental data for different isotopes. The shape of the rotational photoassociation spectrum for various bosonic Yb isotopes can be qualitatively different.

Original language	English
Article number	012715
Journal	Physical Review A - Atomic, Molecular, and Optical Physics
Volume	80
Issue number	1
DOIs	https://doi.org/10.1103/PhysRevA.80.012715
State	Published - 2009/08/06

ASJC Scopus subject areas

Atomic and Molecular Physics, and Optics

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title = "Line shapes of optical Feshbach resonances near the intercombination transition of bosonic ytterbium",

abstract = "The properties of bosonic ytterbium photoassociation spectra near the intercombination transition S1 0 - P3 1 are studied theoretically at ultralow temperatures. We demonstrate how the shapes and intensities of rotational components of optical Feshbach resonances are affected by mass tuning of the scattering properties of the two colliding ground-state atoms. Particular attention is given to the relationship between the magnitude of the scattering length and the occurrence of shape resonances in higher partial waves of the van der Waals system. We develop a mass-scaled model of the excited-state potential that represents the experimental data for different isotopes. The shape of the rotational photoassociation spectrum for various bosonic Yb isotopes can be qualitatively different.",

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AU - Borkowski, M.

AU - Ciuryło, R.

AU - Julienne, P. S.

AU - Tojo, S.

AU - Enomoto, K.

AU - Takahashi, Y.

PY - 2009/8/6

Y1 - 2009/8/6

N2 - The properties of bosonic ytterbium photoassociation spectra near the intercombination transition S1 0 - P3 1 are studied theoretically at ultralow temperatures. We demonstrate how the shapes and intensities of rotational components of optical Feshbach resonances are affected by mass tuning of the scattering properties of the two colliding ground-state atoms. Particular attention is given to the relationship between the magnitude of the scattering length and the occurrence of shape resonances in higher partial waves of the van der Waals system. We develop a mass-scaled model of the excited-state potential that represents the experimental data for different isotopes. The shape of the rotational photoassociation spectrum for various bosonic Yb isotopes can be qualitatively different.

AB - The properties of bosonic ytterbium photoassociation spectra near the intercombination transition S1 0 - P3 1 are studied theoretically at ultralow temperatures. We demonstrate how the shapes and intensities of rotational components of optical Feshbach resonances are affected by mass tuning of the scattering properties of the two colliding ground-state atoms. Particular attention is given to the relationship between the magnitude of the scattering length and the occurrence of shape resonances in higher partial waves of the van der Waals system. We develop a mass-scaled model of the excited-state potential that represents the experimental data for different isotopes. The shape of the rotational photoassociation spectrum for various bosonic Yb isotopes can be qualitatively different.

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JO - Physical Review A - Atomic, Molecular, and Optical Physics

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Line shapes of optical Feshbach resonances near the intercombination transition of bosonic ytterbium

Abstract

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