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Literature DB >> 17501555

Hydrogenlike highly charged ions for tests of the time independence of fundamental constants.

Abstract

Hyperfine transitions in the electronic ground state of cold, trapped hydrogenlike highly charged ions have attractive features for use as frequency standards because the majority of systematic frequency shifts are smaller by orders of magnitude compared to many microwave and optical frequency standards. Frequency measurements of these transitions hold promise for significantly improved laboratory tests of local position invariance of the electron and quark masses.

Entities: Chemical

Year: 2007 PMID： 17501555 DOI： 10.1103/PhysRevLett.98.180801

Source DB: PubMed Journal: Phys Rev Lett ISSN： 0031-9007 Impact factor: 9.161

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Cited

5 in total

Review 1. Varying Constants, Gravitation and Cosmology.

Authors: Jean-Philippe Uzan
Journal: Living Rev Relativ Date: 2011-03-29 Impact factor: 40.429

2. Detection of metastable electronic states by Penning trap mass spectrometry.

Authors: R X Schüssler; H Bekker; M Braß; H Cakir; J R Crespo López-Urrutia; M Door; P Filianin; Z Harman; M W Haverkort; W J Huang; P Indelicato; C H Keitel; C M König; K Kromer; M Müller; Y N Novikov; A Rischka; C Schweiger; S Sturm; S Ulmer; S Eliseev; K Blaum
Journal: Nature Date: 2020-05-06 Impact factor: 49.962

Hydrogenlike highly charged ions for tests of the time independence of fundamental constants.

Review 1. Varying Constants, Gravitation and Cosmology.

2. Detection of metastable electronic states by Penning trap mass spectrometry.

3. Coherent laser spectroscopy of highly charged ions using quantum logic.

4. Laser Cooling with an Intermediate State and Electronic Structure Studies of the Molecules CaCs and CaNa.

5. Detection of the 5p - 4f orbital crossing and its optical clock transition in Pr⁹.

Hydrogenlike highly charged ions for tests of the time independence of fundamental constants.

Review 1. Varying Constants, Gravitation and Cosmology.

2. Detection of metastable electronic states by Penning trap mass spectrometry.

3. Coherent laser spectroscopy of highly charged ions using quantum logic.

4. Laser Cooling with an Intermediate State and Electronic Structure Studies of the Molecules CaCs and CaNa.

5. Detection of the 5p - 4f orbital crossing and its optical clock transition in Pr9.

5. Detection of the 5p - 4f orbital crossing and its optical clock transition in Pr⁹.