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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.
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Contact : Nicolas Passilly
Nonlinear Optics and Supercontinuum Symposium
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Two ERC Grants for FEMTO-ST Institute in 2011
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Michel planat makes the Insights News of the Journal of Physics A: Mathematical and Theoretical
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4M conference 2010
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d-MEMS 2010 – Besançon June 28-29th
FEMTO-ST and LIFC organize the 1 st workshop on design, control & software implementation for distributed MEMS
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Vehicular Power Propulsion Conference - Lille 2010
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For more informations : http://vppc2010.univ-lille1.fr/
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Best Poster Award: Younes Makoudi@Elecmol08
Younes Makoudi, PhD@FEMTO-ST, won the best poster award during the Elecmol08 international conference in Grenoble on December 12 (www.elecmol.com). The aim of his work is the adsorption of functional molecules on surfaces which plays a vital role in the emerging field of nanoelectronics.
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