Ultracold Gas of Dipolar NaCs Ground State Molecules

Ian Stevenson; Aden Z. Lam; Niccolò Bigagli; Claire Warner; Weijun Yuan; Siwei Zhang; Sebastian Will

doi:10.1103/PhysRevLett.130.113002

Ultracold Gas of Dipolar NaCs Ground State Molecules

Ian Stevenson, Aden Z. Lam, Niccolò Bigagli, Claire Warner, Weijun Yuan, Siwei Zhang, Sebastian Will

Columbia University

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

Abstract

We report on the creation of bosonic NaCs molecules in their absolute rovibrational ground state via stimulated Raman adiabatic passage. We create ultracold gases with up to 22 000 dipolar NaCs molecules at a temperature of 300(50) nK and a peak density of 1.0(4)×1012 cm-3. We demonstrate comprehensive quantum state control by preparing the molecules in a specific electronic, vibrational, rotational, and hyperfine state. We measure the ground state ac polarizability at 1064 nm along with the two-body loss rate, which we find to be universal. Employing the tunability and strength of the permanent electric dipole moment of NaCs, we induce dipole moments of up to 2.6 D at a dc electric field of 2.1(2) kV/cm and demonstrate strong microwave coupling between the two lowest rotational states with a Rabi frequency of 2π×45 MHz. A large electric dipole moment, accessible at relatively small electric fields, makes ultracold gases of NaCs molecules well suited for the exploration of strongly interacting phases of dipolar quantum matter.

Original language	English
Article number	113002
Journal	Physical Review Letters
Volume	130
Issue number	11
DOIs	https://doi.org/10.1103/PhysRevLett.130.113002
Publication status	Published - 17 Mar 2023
Externally published	Yes

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title = "Ultracold Gas of Dipolar NaCs Ground State Molecules",

abstract = "We report on the creation of bosonic NaCs molecules in their absolute rovibrational ground state via stimulated Raman adiabatic passage. We create ultracold gases with up to 22 000 dipolar NaCs molecules at a temperature of 300(50) nK and a peak density of 1.0(4)×1012 cm-3. We demonstrate comprehensive quantum state control by preparing the molecules in a specific electronic, vibrational, rotational, and hyperfine state. We measure the ground state ac polarizability at 1064 nm along with the two-body loss rate, which we find to be universal. Employing the tunability and strength of the permanent electric dipole moment of NaCs, we induce dipole moments of up to 2.6 D at a dc electric field of 2.1(2) kV/cm and demonstrate strong microwave coupling between the two lowest rotational states with a Rabi frequency of 2π×45 MHz. A large electric dipole moment, accessible at relatively small electric fields, makes ultracold gases of NaCs molecules well suited for the exploration of strongly interacting phases of dipolar quantum matter.",

author = "Ian Stevenson and Lam, \{Aden Z.\} and Niccol{\`o} Bigagli and Claire Warner and Weijun Yuan and Siwei Zhang and Sebastian Will",

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doi = "10.1103/PhysRevLett.130.113002",

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T1 - Ultracold Gas of Dipolar NaCs Ground State Molecules

AU - Stevenson, Ian

AU - Lam, Aden Z.

AU - Bigagli, Niccolò

AU - Warner, Claire

AU - Yuan, Weijun

AU - Zhang, Siwei

AU - Will, Sebastian

PY - 2023/3/17

Y1 - 2023/3/17

N2 - We report on the creation of bosonic NaCs molecules in their absolute rovibrational ground state via stimulated Raman adiabatic passage. We create ultracold gases with up to 22 000 dipolar NaCs molecules at a temperature of 300(50) nK and a peak density of 1.0(4)×1012 cm-3. We demonstrate comprehensive quantum state control by preparing the molecules in a specific electronic, vibrational, rotational, and hyperfine state. We measure the ground state ac polarizability at 1064 nm along with the two-body loss rate, which we find to be universal. Employing the tunability and strength of the permanent electric dipole moment of NaCs, we induce dipole moments of up to 2.6 D at a dc electric field of 2.1(2) kV/cm and demonstrate strong microwave coupling between the two lowest rotational states with a Rabi frequency of 2π×45 MHz. A large electric dipole moment, accessible at relatively small electric fields, makes ultracold gases of NaCs molecules well suited for the exploration of strongly interacting phases of dipolar quantum matter.

AB - We report on the creation of bosonic NaCs molecules in their absolute rovibrational ground state via stimulated Raman adiabatic passage. We create ultracold gases with up to 22 000 dipolar NaCs molecules at a temperature of 300(50) nK and a peak density of 1.0(4)×1012 cm-3. We demonstrate comprehensive quantum state control by preparing the molecules in a specific electronic, vibrational, rotational, and hyperfine state. We measure the ground state ac polarizability at 1064 nm along with the two-body loss rate, which we find to be universal. Employing the tunability and strength of the permanent electric dipole moment of NaCs, we induce dipole moments of up to 2.6 D at a dc electric field of 2.1(2) kV/cm and demonstrate strong microwave coupling between the two lowest rotational states with a Rabi frequency of 2π×45 MHz. A large electric dipole moment, accessible at relatively small electric fields, makes ultracold gases of NaCs molecules well suited for the exploration of strongly interacting phases of dipolar quantum matter.

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DO - 10.1103/PhysRevLett.130.113002

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VL - 130

JO - Physical Review Letters

JF - Physical Review Letters

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M1 - 113002

ER -

Ultracold Gas of Dipolar NaCs Ground State Molecules

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