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Optical Frequency Measurement is Getting a Lot More Precise

DEC 01, 1997
A new trick for the repeated halving of optical frequency intervals now permits the measurement of optical atomic transitions with unprecedented accuracy.

DOI: 10.1063/1.881627

At the Max Planck Institute for Quantum Optics in the Munich suburb of Garching, Theodor Hansch and colleagues have measured the ultraviolet transition frequency between the 1S and 2S states of atomic hydrogen to be 2.466 061 413 187 34(84)×1015Hz. With an uncertainty of only 3 parts in 1013, this result exceeds the accuracy of the best previous measurement of the 1S‐2S transition by two orders of magnitude. It is, in fact, the most accurate measurement to date of any frequency in the visible or ultraviolet. It’s so accurate that simply repeating the measurement a year from now would provide a better and more direct verification (or falsification) of the constancy of the fine‐structure constant over cosmological time than any astrophysical data we have.

This Content Appeared In
pt-cover_1997_12.jpeg

Volume 50, Number 12

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