PTB-Forscher berichten zusammen mit Kollegen aus München, Darmstadt und Mainz in "Nature" über Messungen am Thorium-229-Atomkern. Damit rückt eine optische Kernuhr näher, die noch genauer "tickt" als heutige Atomuhren.

Der NDR berichtete ausführlich in seinen Nachrichten:
www.ndr.de/fernsehen/sendungen/hallo_niedersachsen/Forschungsdurchbruch-Kernuhr-loest-Atomuhr-ab,hallonds43740.html

The frequency instability and systematic uncertainty of the latest generation of optical atomic clocks is now approaching the one part in 10¹⁸ level. Comparisons between clocks must account for the relativistic redshift of the clock frequencies, which is proportional to the corresponding gravity (gravitational plus centrifugal) potential of the clocks. For contributions to international timescales, the relativistic redshift correction must be applied with respect to a conventional zero potential value, which is derived from the mean sea level or geoid.

To benefit fully from the uncertainty of the optical clocks, the gravity potential must be determined with an accuracy of 0.1 m²/s², equivalent to 0.01 m vertical height. Two geodetic approaches were investigated in a European research project [1]: geometric levelling and the Global Navigation Satellite Systems (GNSS)/geoid approach. Geometric levelling gives potential differences...

The "Young Scientist Award", endowed with 1000 euros, was awarded for the first time within the scope of the 9^th High Level Expert Meeting "Asphere Metrology", hosted by the Competence Center Ultrapräzise Oberflächenbearbeitung (CC UPOB e.V.). This award is intended to nurture and honour young scientists working in the fields of ultra-precise surface finishing. The nominated candidates presented the results of their research to the audience of experts in the form of short lectures and a poster. Jan-Henrik Hagemann, a doctoral candidate from PTB's Working Group 4.22, "Flatness Metrology", won first prize for his work on the interferometric measurement of the form of optical surfaces with partly coherent multi-source illumination.