Internal Ceramic Protective Coating of Hollow‐Core Fibers.

Autor: Jouin, Jenny, Thomas, Philippe, Orihuel, Heloïse, De Sousa, Elodie, Launay, Yann, Torzuoli, Lyna, Debord, Benoit, Al‐Dhaybi, Ali, Gérôme, Frédéric, Benabid, Fetah
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Zdroj: Advanced Engineering Materials; Sep2024, Vol. 26 Issue 18, p1-9, 9p
Abstrakt: To optimize the use of hollow‐core photonic crystal fibers (HC‐PCF), their cores are filled with an atomic gas for an ultra‐enhanced interaction with an incident laser beam in applications such as atomic vapor microcells. One challenge in these gas‐filled HC‐PCFs is to control the physiochemical interactions between the gas medium and the silica inner surface of the fiber core surround. In this work, thus, the processing of ceramic coatings on glass substrates by chemical solution deposition is focused on. Also, the successful implementation of an original coating procedure for a deposition inside hollow‐core fibers with complex microstructures is described. It is indeed possible to form a thin, dense, inorganic, and amorphous layer with a low thickness, low roughness, and high transparency. To obtain such a result, several parameters must be controlled, including the concentration of the solution, the technique and the deposition time, as well as the heat treatment undergone by the fiber. In particular, the selected aluminosilicate coatings, which are nonporous and present a 20–30 nm thickness, demonstrate a considerable improvement of the lifetime properties of the fibers filled with rubidium vapor, without modifying its original guiding properties. [ABSTRACT FROM AUTHOR]
Databáze: Complementary Index