Publications of Fabio Caruso
All genres
Journal Article (7)
2015
Journal Article
Ren, X., , F. Caruso, M. Scheffler and P. Rinke: Beyond the GW approximation: A second-order screened exchange correction. Physical Review B 92 (8), 081104(R) (2015).
Journal Article
F. Caruso, , X. Ren, M. Scheffler, , , , , , , , , and P. Rinke: GW100: Benchmarking G0W0 for Molecular Systems. Journal of Chemical Theory and Computation 11 (12), 5665–5687 (2015).
, 2014
Journal Article
Caruso, F., V. Atalla, , A. Rubio, M. Scheffler and P. Rinke: First-principles description of charge transfer in donor-acceptor compounds from self-consistent many-body perturbation theory. Physical Review B 90 (8), 085141 (2014).
2013
Journal Article
Caruso, F., P. Rinke, X. Ren, A. Rubio and M. Scheffler: Self-consistent GW: an all-electron implementation with localized basis functions. Physical Review B 88 (7), 075105 (2013).
Journal Article
Caruso, F., D. Rohr, , X. Ren, P. Rinke, A. Rubio and M. Scheffler: Bond Breaking and Bond Formation: How Electron Correlation is Captured in Many-Body Perturbation Theory and Density-Functional Theory. Physical Review Letters 110 (14), 146403 (2013).
2012
Journal Article
Caruso, F., P. Rinke, X. Ren, M. Scheffler and A. Rubio: Unified description of ground and excited states of finite systems: The self-consistent GW approach. Physical Review B 86 (8), 081102(R) (2012).
Journal Article
F. Caruso, X. Ren, O.T. Hofmann, , , A. Rubio, M. Scheffler and P. Rinke: Benchmark of GW methods for azabenzenes. Physical Review B 86 (24), 245127 (2012).
, Conference Paper (1)
2022
Conference Paper
Seiler, H., D. Zahn, M. Zacharias, P.-N. Hildebrandt, T. Vasileiadis, Y.W. Windsor, Y. Qi, C. Carbogno, , R. Ernstorfer and F. Caruso: Momentum-resolved non-radiative energy flow in photoexcited black phosphorus. In: Optics Infobase Conference Papers.in press
Talk (6)
2013
Talk
2012
Talk
Talk
Talk
Talk
2011
Talk
Thesis - PhD (1)
2013
Thesis - PhD
Caruso, F.: Self-consistent GW approach for the unified description of ground and excited states of finite systems. Freie Universität Berlin