Ion migration in high repetition rate femtosecond laser inscribed waveguides
is currently being reported in different optical glasses. For the first time we
discuss and experimentally demonstrate the presence of two regimes of ion
migration found in laser written waveguides. Regime-I, corresponds to the
initial waveguide formation mainly via light element migration (in our case
atomic weight < 31u), whereas regime-II majorly corresponds to the movement of
heavy elements. This behavior brings attention to a problem which has never
been analyzed before and that affects laser written active waveguides in which
active ions migrate changing their local spectroscopic properties. The
migration of active ions may in fact detune the pre-designed optimal values of
active photonic devices. This paper experimentally evidences this problem and
provides solutions to avert it.Comment: 4 pages, 5 figure

del Hoyo, J.

Fernandez, P.

Fernandez, T. Toney

Solis, J.

Sotillo, B.

Valles, J. A

Vazquez, R. Martinez

English

arXiv

Toney Teddy Fernandez

Belen Sotillo

Jesus Del Hoyo

Juan-Antonio Valles

Rebeca Martinez Vazquez

Paloma Fernandez

Javier Solis

Crossref

IEEE Photonics Technology Letters

Dual Regimes of Ion Migration in High Repetition Rate Femtosecond Laser Inscribed Waveguides

© IEEE (Institute of Electrical and Electronics Engineers).
Work partially supported by the Spanish Ministry of Economy & Competitiveness (MINECO, TEC2011-22422, MAT2012-31959), J.H. & T.T.F. acknowledge funding from the JAE CSIC Program (co-funded by the European Social Fund). B Sotillo acknowledges her funding in the frame of CSD2009-00013 (MINECO).Ion migration in high repetition rate femtosecond laser inscribed waveguides is currently being reported in different optical glasses. For the first time, we discuss and experimentally demonstrate the presence of two regimes of ion migration found in laser written waveguides. Regime-I corresponds to the initial waveguide formation mainly via light element migration (in our case atomic weight < 31 u), whereas regime-II majorly corresponds to the movement of heavy elements. This behavior brings attention to a problem which has never been analyzed before and that affects the laser written active waveguides, in which active ions migrate changing their local spectroscopic properties. The migration of active ions may in fact detune the predesigned optimal values of active photonic devices. This letter experimentally demonstrate this problem and provides solutions to avert it.Ministerio de Economía y Competitividad (MINECO)/FEDERJAE CSIC Program through the European Social FundConsejo Superior de Investigaciones Cientñificas (CSIC)Depto. de Física de MaterialesFac. de Ciencias FísicasTRUEpu

Teddy Fernández, Toney

Sotillo Buzarra, Belén

del Hoyo, Jesús

Valles, Juan Antonio

Martínez Vázquez, Rebeca

Fernández Sánchez, Paloma

Solis, Javier

Docta Complutense

Dual regimes of ion migration in high repetition rate femtosecond laser inscribed waveguides

4 págs.; 5 figs.© 1989-2012 IEEE. Ion migration in high repetition rate femtosecond laser inscribed waveguides is currently being reported in different optical glasses. For the first time, we discuss and experimentally demonstrate the presence of two regimes of ion migration found in laser written waveguides. Regime-I corresponds to the initial waveguide formation mainly via light element migration (in our case atomic weight < 31 u), whereas regime-II majorly corresponds to the movement of heavy elements. This behavior brings attention to a problem which has never been analyzed before and that affects the laser written active waveguides, in which active ions migrate changing their local spectroscopic properties. The migration of active ions may in fact detune the predesigned optimal values of active photonic devices. This letter experimentally demonstrate this problem and provides solutions to avert it.Work partially supported by the Spanish Ministry of Economy &
Competitiveness (MINECO, TEC2011-22422, MAT2012-31959), J.H. &
T.T.F. acknowledge funding from the JAE CSIC Program (co-funded by the
European Social Fund). B Sotillo acknowledges her funding in the frame of
CSD2009-00013 (MINECO).Peer Reviewe

Toney Fernández, T.

Hoyo, J. del

Vallés, J. A.

Martínez Vázquez, R.

Fernández, P.

Solís Céspedes, Javier

Digital.CSIC

Dual regimes of ion migration in high repetition rate femtosecond laser
  inscribed waveguides

Dual regimes of ion migration in high repetition rate femtosecond laser inscribed waveguides

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