Open AccessSolderjet bumping technique used to manufacture a compact and robust green solid-state laser
Author(s) -
Pol Ribes,
Thomas Burkhardt,
Marcel Hornaff,
S. Kousar,
D. Burkhardt,
Erik Beckert,
M. Gilaberte,
Denis Guilhot,
D. Montes,
Miguel Á. Galán,
Sebastián Ferrando,
Marco Laudisio,
T. Belenguer,
S. Ibarmia,
P. Gallego,
José Antonio Rodríguez,
Ramona Eberhardt,
Andreas Tünnermann
Publication year - 2015
Publication title -
proceedings of spie, the international society for optical engineering/proceedings of spie
Language(s) - English
Resource type - Conference proceedings
SCImago Journal Rank - 0.192
H-Index - 176
eISSN - 1996-756X
pISSN - 0277-786X
DOI - 10.1117/12.2178373
Subject(s) - bumping , materials science , laser , soldering , ceramic , optoelectronics , thermal conductivity , optics , composite material , mechanical engineering , physics , engineering
Solder-joining using metallic solder alloys is an alternative to adhesive bonding. Laser-based soldering processes are especially well suited for the joining of optical components made of fragile and brittle materials such as glasses, ceramics and optical crystals due to a localized and minimized input of thermal energy. The Solderjet Bumping technique is used to assemble a miniaturized laser resonator in order to obtain higher robustness, wider thermal conductivity performance, higher vacuum and radiation compatibility, and better heat and long term stability compared with identical glued devices. The resulting assembled compact and robust green diode-pumped solid-state laser is part of the future Raman Laser Spectrometer designed for the Exomars European Space Agency (ESA) space mission 2018
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