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Literature DB >> 27147026

Direct detection of the (229)Th nuclear clock transition.

Lars von der Wense¹, Benedict Seiferle¹, Mustapha Laatiaoui^2,3, Jürgen B Neumayr¹, Hans-Jörg Maier¹, Hans-Friedrich Wirth¹, Christoph Mokry^3,4, Jörg Runke^2,4, Klaus Eberhardt^3,4, Christoph E Düllmann^2,3,4, Norbert G Trautmann⁴, Peter G Thirolf¹.

Abstract

Today's most precise time and frequency measurements are performed with optical atomic clocks. However, it has been proposed that they could potentially be outperformed by a nuclear clock, which employs a nuclear transition instead of an atomic shell transition. There is only one known nuclear state that could serve as a nuclear clock using currently available technology, namely, the isomeric first excited state of (229)Th (denoted (229m)Th). Here we report the direct detection of this nuclear state, which is further confirmation of the existence of the isomer and lays the foundation for precise studies of its decay parameters. On the basis of this direct detection, the isomeric energy is constrained to between 6.3 and 18.3 electronvolts, and the half-life is found to be longer than 60 seconds for (229m)Th(2+). More precise determinations appear to be within reach, and would pave the way to the development of a nuclear frequency standard.

Year: 2016 PMID： 27147026 DOI： 10.1038/nature17669

Source DB: PubMed Journal: Nature ISSN： 0028-0836 Impact factor: 49.962

16 in total

1. Constraining the evolution of the fundamental constants with a solid-state optical frequency reference based on the 229Th nucleus.

Authors: Wade G Rellergert; D DeMille; R R Greco; M P Hehlen; J R Torgerson; Eric R Hudson
Journal: Phys Rev Lett Date: 2010-05-20 Impact factor: 9.161

Direct detection of the (229)Th nuclear clock transition.

1. Constraining the evolution of the fundamental constants with a solid-state optical frequency reference based on the 229Th nucleus.

2. Nuclear quantum optics with x-ray laser pulses.

3. Enhanced effect of temporal variation of the fine structure constant and the strong interaction in 229Th.

4. Comment on "Observation of the deexcitation of the (229m)Th nuclear isomer".

5. Additional evidence for the proposed excited state at <= 5 eV in 229Th.

6. Wigner crystals of 229Th for optical excitation of the nuclear isomer.

7. Proposal for a nuclear gamma-ray laser of optical range.

8. Results of a Direct Search Using Synchrotron Radiation for the Low-Energy (229)Th Nuclear Isomeric Transition.

9. Cryogenic linear Paul trap for cold highly charged ion experiments.

10. Radioluminescence and photoluminescence of Th:CaF2 crystals.

1. Coherent light brightens the quantum science frontier.

2. Nuclear physics: Elusive transition spotted in thorium.

3. Quantum Zeno Effect assisted Spectroscopy of a single trapped Ion.