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43 Publications


2015 | Journal Article | LibreCat-ID: 10030
M. Friedrich, A. Riefer, S. Sanna, W. G. Schmidt, and A. Schindlmayr, “Phonon dispersion and zero-point renormalization of LiNbO3 from density-functional perturbation theory,” Journal of Physics: Condensed Matter, vol. 27, no. 38, 2015.
LibreCat | Files available | DOI | WoS | PubMed | Europe PMC
 

2015 | Journal Article | LibreCat-ID: 18470 | OA
M. Bouhassoune and A. Schindlmayr, “Ab initio study of strain effects on the quasiparticle bands and effective masses in silicon,” Advances in Condensed Matter Physics, vol. 2015, Art. no. 453125, 2015, doi: 10.1155/2015/453125.
LibreCat | Files available | DOI | WoS
 

2014 | Book Chapter | LibreCat-ID: 18471
C. Friedrich, E. Şaşıoğlu, M. Müller, A. Schindlmayr, and S. Blügel, “Spin excitations in solids from many-body perturbation theory,” in First Principles Approaches to Spectroscopic Properties of Complex Materials, vol. 347, C. Di Valentin, S. Botti, and M. Cococcioni, Eds. Berlin, Heidelberg: Springer, 2014, pp. 259–301.
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2014 | Book Chapter | LibreCat-ID: 18472
A. Schindlmayr, “The GW approximation for the electronic self-energy,” in Many-Electron Approaches in Physics, Chemistry and Mathematics, vol. 29, V. Bach and L. Delle Site, Eds. Cham: Springer, 2014, pp. 343–357.
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2014 | Journal Article | LibreCat-ID: 18473
S. Yanagisawa, Y. Morikawa, and A. Schindlmayr, “Theoretical investigation of the band structure of picene single crystals within the GW approximation,” Japanese Journal of Applied Physics, vol. 53, no. 5S1, 2014.
LibreCat | Files available | DOI | WoS
 

2014 | Book Chapter | LibreCat-ID: 18474 | OA
C. Friedrich and A. Schindlmayr, “Many-body perturbation theory: The GW approximation,” in Computing Solids: Models, ab initio Methods and Supercomputing, vol. 74, S. Blügel, N. Helbig, V. Meden, and D. Wortmann, Eds. Jülich: Forschungszentrum Jülich, 2014, p. A4.1-A4.21.
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2013 | Book Chapter | LibreCat-ID: 18475
A. Riefer et al., “Lithium niobate dielectric function and second-order polarizability tensor from massively parallel ab initio calculations,” in High Performance Computing in Science and Engineering ‘13, W. E. Nagel, D. H. Kröner, and M. M. Resch, Eds. Cham: Springer, 2013, pp. 93–104.
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2013 | Journal Article | LibreCat-ID: 18476 | OA
S. Yanagisawa, Y. Morikawa, and A. Schindlmayr, “HOMO band dispersion of crystalline rubrene: Effects of self-energy corrections within the GW approximation,” Physical Review B, vol. 88, no. 11, 2013.
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2013 | Journal Article | LibreCat-ID: 13525 | OA
A. Riefer, S. Sanna, A. Schindlmayr, and W. G. Schmidt, “Optical response of stoichiometric and congruent lithium niobate from first-principles calculations,” Physical Review B, vol. 87, no. 19, 2013.
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2013 | Journal Article | LibreCat-ID: 18479 | OA
A. Schindlmayr, “Analytic evaluation of the electronic self-energy in the GW approximation for two electrons on a sphere,” Physical Review B, vol. 87, no. 7, Art. no. 075104, 2013, doi: 10.1103/PhysRevB.87.075104.
LibreCat | Files available | DOI | WoS | arXiv
 

2012 | Journal Article | LibreCat-ID: 18542
C. Friedrich, M. Betzinger, M. Schlipf, S. Blügel, and A. Schindlmayr, “Hybrid functionals and GW approximation in the FLAPW method,” Journal of Physics: Condensed Matter, vol. 24, no. 29, 2012.
LibreCat | Files available | DOI | WoS | PubMed | Europe PMC
 

2011 | Journal Article | LibreCat-ID: 4091
M. Wand, A. Schindlmayr, T. Meier, and J. Förstner, “Simulation of the ultrafast nonlinear optical response of metal slabs,” Physica Status Solidi B, vol. 248, no. 4, pp. 887–891, 2011, doi: 10.1002/pssb.201001219.
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2011 | Conference Paper | LibreCat-ID: 4048
M. Wand, A. Schindlmayr, T. Meier, and J. Förstner, “Theoretical approach to the ultrafast nonlinear optical response of metal slabs,” presented at the Conference on Lasers and Electro-Optics 2011, Baltimore, Maryland, United States, 2011, doi: 10.1364/CLEO_AT.2011.JTuI59.
LibreCat | Files available | DOI | WoS
 

2010 | Book Chapter | LibreCat-ID: 18549
A. Schindlmayr, C. Friedrich, E. Şaşıoğlu, and S. Blügel, “First-principles calculation of electronic excitations in solids with SPEX,” in Modern and Universal First-Principles Methods for Many-Electron Systems in Chemistry and Physics, vol. 3, F. M. Dolg, Ed. München: Oldenbourg, 2010, pp. 67–78.
LibreCat | DOI
 

2010 | Journal Article | LibreCat-ID: 18562
M. Bouhassoune and A. Schindlmayr, “Electronic structure and effective masses in strained silicon,” Physica Status Solidi C, vol. 7, no. 2, pp. 460–463, 2010.
LibreCat | Files available | DOI | WoS
 

2010 | Journal Article | LibreCat-ID: 13573
C. Thierfelder, S. Sanna, A. Schindlmayr, and W. G. Schmidt, “Do we know the band gap of lithium niobate?,” Physica Status Solidi C, vol. 7, no. 2, pp. 362–365, 2010.
LibreCat | Files available | DOI | WoS
 

2010 | Journal Article | LibreCat-ID: 18560 | OA
E. Şaşıoğlu, A. Schindlmayr, C. Friedrich, F. Freimuth, and S. Blügel, “Wannier-function approach to spin excitations in solids,” Physical Review B, vol. 81, no. 5, Art. no. 054434, 2010, doi: 10.1103/PhysRevB.81.054434.
LibreCat | Files available | DOI | WoS | arXiv
 

2010 | Journal Article | LibreCat-ID: 18557
A. Schindlmayr, C. Friedrich, E. Şaşıoğlu, and S. Blügel, “First-principles calculation of electronic excitations in solids with SPEX,” Zeitschrift für Physikalische Chemie, vol. 224, no. 3–4, pp. 357–368, 2010, doi: 10.1524/zpch.2010.6110.
LibreCat | Files available | DOI | WoS | arXiv
 

2010 | Journal Article | LibreCat-ID: 18558 | OA
C. Friedrich, S. Blügel, and A. Schindlmayr, “Efficient implementation of the GW approximation within the all-electron FLAPW method,” Physical Review B, vol. 81, no. 12, Art. no. 125102, 2010, doi: 10.1103/PhysRevB.81.125102.
LibreCat | Files available | DOI | WoS | arXiv
 

2009 | Journal Article | LibreCat-ID: 18632 | OA
S. F. Feste et al., “Measurement of effective electron mass in biaxial tensile strained silicon on insulator,” Applied Physics Letters, vol. 95, no. 18, 2009.
LibreCat | Files available | DOI | WoS
 

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