Laser spectroscopy of triply charged 229Th isomer for a nuclear clock

Thorium-229 ( 229 Th) possesses an optical nuclear transition between the ground state ( 229g Th) and low-lying isomer ( 229m Th). A nuclear clock based on this nuclear-transition frequency is expected to surpass existing atomic clocks owing to its insusceptibility to surrounding fields 1 – 5 . In c...

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Veröffentlicht in:	Nature (London) 2024-05, Vol.629 (8010), p.62-66
Hauptverfasser:	Yamaguchi, Atsushi, Shigekawa, Yudai, Haba, Hiromitsu, Kikunaga, Hidetoshi, Shirasaki, Kenji, Wada, Michiharu, Katori, Hidetoshi
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Sprache:	eng
Schlagworte:	140/125 639/766/387/1126 639/766/483/1255 Clocks Clocks & watches Doppler effect Helium Humanities and Social Sciences Internal conversion Ion beams Laser cooling Laser induced fluorescence Laser spectroscopy Lasers multidisciplinary Radio frequency Science Science (multidisciplinary) Spectroscopy Spectrum analysis
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description	Thorium-229 ( 229 Th) possesses an optical nuclear transition between the ground state ( 229g Th) and low-lying isomer ( 229m Th). A nuclear clock based on this nuclear-transition frequency is expected to surpass existing atomic clocks owing to its insusceptibility to surrounding fields 1 – 5 . In contrast to other charge states, triply charged 229 Th ( 229 Th 3+ ) is the most suitable for highly accurate nuclear clocks because it has closed electronic transitions that enable laser cooling, laser-induced fluorescence detection and state preparation of ions 1 , 6 – 8 . Although laser spectroscopic studies of 229 Th 3+ in the nuclear ground state have been performed 8 , properties of 229m Th 3+ , including its nuclear decay lifetime that is essential to specify the intrinsic linewidth of the nuclear-clock transition, remain unknown. Here we report the trapping of 229m Th 3+ continuously supplied by a 233 U source and the determination of nuclear decay half-life of the isolated 229m Th 3+ to be 1,400 − 300 + 600 s through nuclear-state-selective laser spectroscopy. Furthermore, by determining the hyperfine constants of 229m Th 3+ , we reduced the uncertainty of the sensitivity of the 229 Th nuclear clock to variations in the fine-structure constant by a factor of four. These results offer key parameters for the 229 Th 3+ nuclear clock and its applications in the search for new physics. The trapping of triply charged 229m Th 3+ is described and its nuclear decay half-life determined, showing useful properties for the development of a nuclear clock and applications in the search for new physics.
doi_str_mv	10.1038/s41586-024-07296-1
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A nuclear clock based on this nuclear-transition frequency is expected to surpass existing atomic clocks owing to its insusceptibility to surrounding fields 1 – 5 . In contrast to other charge states, triply charged 229 Th ( 229 Th 3+ ) is the most suitable for highly accurate nuclear clocks because it has closed electronic transitions that enable laser cooling, laser-induced fluorescence detection and state preparation of ions 1 , 6 – 8 . Although laser spectroscopic studies of 229 Th 3+ in the nuclear ground state have been performed 8 , properties of 229m Th 3+ , including its nuclear decay lifetime that is essential to specify the intrinsic linewidth of the nuclear-clock transition, remain unknown. Here we report the trapping of 229m Th 3+ continuously supplied by a 233 U source and the determination of nuclear decay half-life of the isolated 229m Th 3+ to be 1,400 − 300 + 600 s through nuclear-state-selective laser spectroscopy. Furthermore, by determining the hyperfine constants of 229m Th 3+ , we reduced the uncertainty of the sensitivity of the 229 Th nuclear clock to variations in the fine-structure constant by a factor of four. These results offer key parameters for the 229 Th 3+ nuclear clock and its applications in the search for new physics. The trapping of triply charged 229m Th 3+ is described and its nuclear decay half-life determined, showing useful properties for the development of a nuclear clock and applications in the search for new physics.</description><identifier>ISSN: 0028-0836</identifier><identifier>EISSN: 1476-4687</identifier><identifier>DOI: 10.1038/s41586-024-07296-1</identifier><language>eng</language><publisher>London: Nature Publishing Group UK</publisher><subject>140/125 ; 639/766/387/1126 ; 639/766/483/1255 ; Clocks ; Clocks & watches ; Doppler effect ; Helium ; Humanities and Social Sciences ; Internal conversion ; Ion beams ; Laser cooling ; Laser induced fluorescence ; Laser spectroscopy ; Lasers ; multidisciplinary ; Radio frequency ; Science ; Science (multidisciplinary) ; Spectroscopy ; Spectrum analysis</subject><ispartof>Nature (London), 2024-05, Vol.629 (8010), p.62-66</ispartof><rights>The Author(s), under exclusive licence to Springer Nature Limited 2024. 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A nuclear clock based on this nuclear-transition frequency is expected to surpass existing atomic clocks owing to its insusceptibility to surrounding fields 1 – 5 . In contrast to other charge states, triply charged 229 Th ( 229 Th 3+ ) is the most suitable for highly accurate nuclear clocks because it has closed electronic transitions that enable laser cooling, laser-induced fluorescence detection and state preparation of ions 1 , 6 – 8 . Although laser spectroscopic studies of 229 Th 3+ in the nuclear ground state have been performed 8 , properties of 229m Th 3+ , including its nuclear decay lifetime that is essential to specify the intrinsic linewidth of the nuclear-clock transition, remain unknown. Here we report the trapping of 229m Th 3+ continuously supplied by a 233 U source and the determination of nuclear decay half-life of the isolated 229m Th 3+ to be 1,400 − 300 + 600 s through nuclear-state-selective laser spectroscopy. Furthermore, by determining the hyperfine constants of 229m Th 3+ , we reduced the uncertainty of the sensitivity of the 229 Th nuclear clock to variations in the fine-structure constant by a factor of four. These results offer key parameters for the 229 Th 3+ nuclear clock and its applications in the search for new physics. 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A nuclear clock based on this nuclear-transition frequency is expected to surpass existing atomic clocks owing to its insusceptibility to surrounding fields 1 – 5 . In contrast to other charge states, triply charged 229 Th ( 229 Th 3+ ) is the most suitable for highly accurate nuclear clocks because it has closed electronic transitions that enable laser cooling, laser-induced fluorescence detection and state preparation of ions 1 , 6 – 8 . Although laser spectroscopic studies of 229 Th 3+ in the nuclear ground state have been performed 8 , properties of 229m Th 3+ , including its nuclear decay lifetime that is essential to specify the intrinsic linewidth of the nuclear-clock transition, remain unknown. Here we report the trapping of 229m Th 3+ continuously supplied by a 233 U source and the determination of nuclear decay half-life of the isolated 229m Th 3+ to be 1,400 − 300 + 600 s through nuclear-state-selective laser spectroscopy. Furthermore, by determining the hyperfine constants of 229m Th 3+ , we reduced the uncertainty of the sensitivity of the 229 Th nuclear clock to variations in the fine-structure constant by a factor of four. These results offer key parameters for the 229 Th 3+ nuclear clock and its applications in the search for new physics. The trapping of triply charged 229m Th 3+ is described and its nuclear decay half-life determined, showing useful properties for the development of a nuclear clock and applications in the search for new physics.</abstract><cop>London</cop><pub>Nature Publishing Group UK</pub><doi>10.1038/s41586-024-07296-1</doi><tpages>5</tpages><orcidid>https://orcid.org/0000-0003-2895-4917</orcidid><orcidid>https://orcid.org/0000-0002-3981-3872</orcidid><orcidid>https://orcid.org/0000-0002-8500-3678</orcidid><orcidid>https://orcid.org/0000-0002-5312-7561</orcidid><orcidid>https://orcid.org/0000-0003-3109-759X</orcidid></addata></record>
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subjects	140/125 639/766/387/1126 639/766/483/1255 Clocks Clocks & watches Doppler effect Helium Humanities and Social Sciences Internal conversion Ion beams Laser cooling Laser induced fluorescence Laser spectroscopy Lasers multidisciplinary Radio frequency Science Science (multidisciplinary) Spectroscopy Spectrum analysis
title	Laser spectroscopy of triply charged 229Th isomer for a nuclear clock
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