A novel approach to filling miniature atomic clock cells

This new method, which gains flexibility, paves the way for large-scale production of atomic sensors.

In recent years, the development of miniature atomic instruments with high sensitivity and accuracy such as clocks or magnetometers is experiencing a real boom. Miniature atomic clocks are intended for example for telecommunications or navigation equipment. These instruments are generally based on the interrogation of a set of alkaline atoms in vapour phase within a cell of millimetre dimensions, generated by micro-fabrication techniques and composed of glass and silicon. One of the difficulties lies in filling these cells with various species (alkaline metals and buffer gases) while preserving the purity and stability of their internal atmosphere over time.

In this context, the work published by FEMTO-ST in Nature Microsystems & Nanoengineering and entitled "Wafer-level vapor cells filled with laser-actuated hermetic seals for integrated atomic devices" proposes a new cell filling technique, inspired by those used for the realization of traditional centimetric glass cells produced by glass blowing, but adapted to microfabrication techniques. This technique is based on micro devices structured in glass and silicon similar to valves that can be operated by laser.

See INSIS/CNRS news

Contact : Nicolas Passilly

Les Visites insolites du CNRS 2021 : plongez au cœur de la science !

Plonger dans la peau d’une cellule, comprendre les systèmes de conversion d’énergie ou encore savoir pourquoi et comment l’hydrogène pourrait être le carburant du futur…grâce aux visites insolites organisées à Besançon et Belfort par FEMTO-ST !
Read more
Programmable matter: world record attempt

A FEMTO-ST research team is trying to get the record for the largest number of autonomous light blocks assembled in a structure approved by the "Guiness World Record".
Read more
Rodolphe Boudot receives the 2020 EFTF Young Scientist Award

The IEEE EFTF-IFCS 2021 is a joint conference of the European Frequency and Time Forum and the IEEE International Frequency Control Symposium. The 2021 joint conference, originally planned for Paris in April, has been converted to a virtual conference from 7th to 17th July, 2021
Read more
Giacomo Clementi, grand prize i-PhD

For his work on Lithium Niobate (LiNbO3), which has led to the design of original and efficient devices for the recovery of vibratory energy by the piezoelectric effect, in particular for connected objects.
Read more
Concours des doctorants-ambassadeurs FEMTO-ST

Remise de prix aux trois vainqueurs du concours de meilleurs posters de présentation de travaux de thèse lors du séminaire interne FEMTO-ST du 2 juillet.
Read more
Understanding energy transfers during photosynthesis

Using three pigments manipulated by scanning tunneling microscopy, researchers from IPCMS and FEMTO-ST are studying energy transfers between molecules to gain a finer understanding of the photosynthesis mechanism in plants. This work is published in Nature Chemistry.
Read more
International Day of Light on May 16th

This year, the Student Chapter of FEMTO-ST organizes on this occasion a photo contest on the theme ′′ Light phenomena in everyday life ".
Read more
AMAROB labelled Deep Tech company

Spin off of FEMTO-ST, Amarob technologie has received the Deep Tech company label awarded by Bpifrance.
Read more
New platform to support the design and optimization of fuel cell hybride system and battery

Virtual FCS" is the first freely accessible online simulation platform to support fuel cell manufacturers and users.

Supported by a European funding, "Virtual FCS" has for French partner the University of Bourgogne-Franche-Comté through the FEMTO-ST institute and the FC-LAB
Read more
ThermoBot : micro robots that walk on water

Imagine, a robot, the size of a fly, walking on the surface of the water and pursued by a laser beam. One could believe in a science fiction scenario...
Read more