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Commit 442a8b23 authored by Christophe Geuzaine's avatar Christophe Geuzaine
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2020. 2020.
<li><a name="2"></a>G. Demésy, F. Zolla, A. Nicolet, M. Commandré. <li><a name="2"></a>G. Demésy, F. Zolla, A. Nicolet, M. Commandré.
<a href="https://doi.org/10.1364/JOSAA.27.000878"> <a href="https://doi.org/10.1364/JOSAA.27.000878">
All-purpose finite element formulation for arbitrarily shaped crossed-gratings embedded in a multilayered stack</a>. All-purpose finite element formulation for arbitrarily shaped
JOSA A 27.4, 878-889, 2010. crossed-gratings embedded in a multilayered stack</a>. JOSA A 27.4,
878-889, 2010.
<li><a name="3"></a>G. Demésy, F. Zolla, A. Nicolet. <li><a name="3"></a>G. Demésy, F. Zolla, A. Nicolet.
<a href="https://arxiv.org/abs/1710.11451"> <a href="https://arxiv.org/abs/1710.11451">
A ONELAB model for the parametric study of mono-dimensional diffraction gratings</a>. A ONELAB model for the parametric study of mono-dimensional diffraction
arXiv:1710.11451. gratings</a>. arXiv:1710.11451.
<li><a name="4"></a>G. Demésy, S. John. <li><a name="4"></a>G. Demésy, S. John.
<a href=" https://doi.org/10.1063/1.4752775"> <a href=" https://doi.org/10.1063/1.4752775">
Solar energy trapping with modulated silicon nanowire photonic crystals</a>. Solar energy trapping with modulated silicon nanowire photonic crystals</a>.
Journal of Applied Physics 112.7, 074326, 2012. Journal of Applied Physics 112.7, 074326, 2012.
<li><a name="5"></a>G. Demésy,J.-C. Auger, B. Stout. <li><a name="5"></a>G. Demésy,J.-C. Auger, B. Stout.
<a href="https://arxiv.org/abs/1807.02355"> <a href="https://arxiv.org/abs/1807.02355">
Scattering matrix of arbitrarily shaped objects: combining finite elements and vector partial waves</a>. Scattering matrix of arbitrarily shaped objects: combining finite
JOSA A 35.8 1401-1409, 2018. elements and vector partial waves</a>. JOSA A 35.8 1401-1409, 2018.
<li><a name="6"></a>N. Marsic, H. De Gersem, G. Demésy, A. Nicolet, C. Geuzaine. <li><a name="6"></a>N. Marsic, H. De Gersem, G. Demésy, A. Nicolet, C. Geuzaine.
<a href="https://arxiv.org/abs/1807.02355"> <a href="https://arxiv.org/abs/1807.02355">
Modal analysis of the ultrahigh finesse Haroche QED cavity</a>. Modal analysis of the ultrahigh finesse Haroche QED cavity</a>.
New Journal of Physics 20.4, 043058, 2018. New Journal of Physics 20.4, 043058, 2018.
<li><a name="7"></a>F. Zolla, G. Renversez, A. Nicolet. <li><a name="7"></a>F. Zolla, G. Renversez, A. Nicolet. Foundations of
Foundations of photonic crystal fibres. World Scientific, 2005. photonic crystal fibres. World Scientific, 2005.
<li><a name="8"></a>G. Demésy, A. Nicolet, B. Gralak, C. Geuzaine, C. Campos, J. E. Roman. <li><a name="8"></a>G. Demésy, A. Nicolet, B. Gralak, C. Geuzaine,
C. Campos, J. E. Roman.
<a href="https://arxiv.org/abs/1802.02363"> <a href="https://arxiv.org/abs/1802.02363">
Non-linear eigenvalue problems with GetDP and SLEPc: Eigenmode computations of frequency-dispersive photonic open structures</a>. Non-linear eigenvalue problems with GetDP and SLEPc: Eigenmode
computations of frequency-dispersive photonic open structures</a>.
arXiv:1802.02363. arXiv:1802.02363.
<li><a name="9"></a>F. Zolla, A. Nicolet, G. Demésy, <li><a name="9"></a>F. Zolla, A. Nicolet, G. Demésy,
<a href="https://arxiv.org/abs/1807.02355"> <a href="https://arxiv.org/abs/1807.02355">
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