Optical clocks started the calibration of the international atomic time

March 04, 2019


Optical clocks of the National Institute of Information and Communications Technology (NICT, Japan) and LNE-SYRTE (Systemes de Reference Temps-Espace, Observatoire de Paris, Universite PSL, CNRS, Sorbonne Universite, France) evaluated the latest "one second" tick of the International Atomic Time (TAI) and provided these data to the Bureau International des Poids et Mesures (BIPM) to be referred for adjusting the tick rate of TAI. Primary frequency standards based on the cesium microwave clock transition or a secondary standard based on a rubidium microwave transition have long played a role to calibrate the scale interval of TAI. The capability of optical clocks, which have made rapid progress in the last twenty years, were recently recognized to be valid, and the two laboratories, in Asia and Europe, finally started the evaluation of TAI using their optical lattice clocks. The two calibrations agreed and are consistent with those provided by state-of-the-art microwave standards, demonstrating the compatibility to adopt optical clocks as a reference that BIPM refers to to adjust the tick rate of TAI. This achievement is found in the "Circular T", a monthly report issued by the BIPM Time department.


Coordinated Universal Time (UTC) is a timescale that various systems such as national standard time, information networks, and international financial systems depend on. UTC differs from TAI by an integer number of seconds, which are the cumulated leap seconds. To generate TAI, BIPM collects data of more than 400 atomic clocks operated in public laboratories over the world and computes their weighted mean.

Its splendid reliability is realized by hundreds of clocks, but the accuracy of the ticking rate has been maintained by the calibrations provided by the state-of-the-art frequency standards, of which international working groups of metrologists recognize the capability. BIPM refers to these calibration data to accelerate or decelerate the ticking rate of TAI in order to be consistent with the SI second.

While microwave standards have long been in charge of calibrations, it has been anticipated that optical clocks, which has made rapid progress over the last decade, would also serve to steer TAI.


Researchers in NICT and LNE-SYRTE operated their strontium optical lattice clocks independently from December 2 to 12 and evaluated the mean frequency of local hydrogen masers (HMs) with reference to the lattice clock. The HMs being linked to TAI by the BIPM, this evaluation thus allowed us to connect the lattice clocks to TAI. This leads to the calibration of the mean TAI scale interval over ten days with respect to the strontium optical lattice clocks.

The two independent evaluations agreed with consistent results of 0.84(71)E-15 and 0.74(74)E-15 at NICT and LNE-SYRTE, respectively. State-of-the-art primary frequency standards in PTB and SYRTE were also being operated during these ten days, and their calibrations were also consistent with the two results, indicating the validity of using optical clocks to provide a reference to steer the tick rate of TAI. After pilot submission of calibrations of TAI by optical clocks at LNE-SYRTE and NICT that were included in the circular T in 2018 after a review process, this is the first time that optical clocks contribute to steering TAI in real time.

The calibrations were also incorporated to compute more accurate timescale TT(BIPM). Once a year, BIPM reviews TAI with reference to the calibration results reported from laboratories and corrects UTC. The correction turns out to be a more accurate timescale called TT(BIPM). The two calibrations provided by NICT and LNE-SYRTE this time also contributed to the computation of TT(BIPM2018), which were published by BIPM on February 1, 2019.

These results will also contribute to the future redefinition of the second. Optical clocks including the lattice clocks at NICT and LNE-SYRTE have already surpassed the state-of-the-art primary frequency standards based on cesium in various aspects. Time and frequency metrologists have initiated a discussion toward the change of the definition of the SI second, which may occur in 2026 in the earliest.

[Future Prospects]

Optical clocks are now operated in various laboratories, and we expect that more laboratories will contribute to the generation of TAI by providing the evaluation results to BIPM. Reliable calibrations by more optical clocks will allow BIPM to foresee a possible maintenance of UTC based on the new optical definition of the second. The various calibration data will also provide information to determine the absolute frequency of the Sr optical clock transition, which may turn out to be the frequency that defines the new SI second.
[Publication information]

Circular T 372
BIPM Time department
URL: ftp://ftp2.bipm.org/pub/tai/Circular-T/cirthtm/cirt.372.html

National Institute of Information and Communications Technology (NICT)

Related Data Articles from Brightsurf:

Keep the data coming
A continuous data supply ensures data-intensive simulations can run at maximum speed.

Astronomers are bulging with data
For the first time, over 250 million stars in our galaxy's bulge have been surveyed in near-ultraviolet, optical, and near-infrared light, opening the door for astronomers to reexamine key questions about the Milky Way's formation and history.

Novel method for measuring spatial dependencies turns less data into more data
Researcher makes 'little data' act big through, the application of mathematical techniques normally used for time-series, to spatial processes.

Ups and downs in COVID-19 data may be caused by data reporting practices
As data accumulates on COVID-19 cases and deaths, researchers have observed patterns of peaks and valleys that repeat on a near-weekly basis.

Data centers use less energy than you think
Using the most detailed model to date of global data center energy use, researchers found that massive efficiency gains by data centers have kept energy use roughly flat over the past decade.

Storing data in music
Researchers at ETH Zurich have developed a technique for embedding data in music and transmitting it to a smartphone.

Life data economics: calling for new models to assess the value of human data
After the collapse of the blockchain bubble a number of research organisations are developing platforms to enable individual ownership of life data and establish the data valuation and pricing models.

Geoscience data group urges all scientific disciplines to make data open and accessible
Institutions, science funders, data repositories, publishers, researchers and scientific societies from all scientific disciplines must work together to ensure all scientific data are easy to find, access and use, according to a new commentary in Nature by members of the Enabling FAIR Data Steering Committee.

Democratizing data science
MIT researchers are hoping to advance the democratization of data science with a new tool for nonstatisticians that automatically generates models for analyzing raw data.

Getting the most out of atmospheric data analysis
An international team including researchers from Kanazawa University used a new approach to analyze an atmospheric data set spanning 18 years for the investigation of new-particle formation.

Read More: Data News and Data Current Events
Brightsurf.com is a participant in the Amazon Services LLC Associates Program, an affiliate advertising program designed to provide a means for sites to earn advertising fees by advertising and linking to Amazon.com.