Book Chapter (17)

921.
Book Chapter
Rubio, A.: Electronic Structure of Materials by Ab Initio Methods: Overview. In: Handbook of Materials Modeling, pp. 1 - 6 (Ed. Andreoni, W.). Springer (2019)
922.
Book Chapter
Colomes, E.; Albareda Piquer, G.; Zhan, Z.; Pandey, D.; Alarcon, A.; Traversa, F.; Oriols, X.: Nanoelectronics: Quantum Electron Transport. In: Applied Bohmian Mechanics: From Nanoscale Systems to Cosmology, 2nd Edition (2019)
923.
Book Chapter
Cahangirov, S.; Rubio, A.: Atomic and Electronic Structure of Silicene on Ag: A Theoretical Perspective. In: Silicene: Prediction, Synthesis, Application, pp. 159 - 179 (Eds. Vogt, P.; Le Lay, G.). Springer Nature Switzerland AG, Basel (2018)
924.
Book Chapter
Pues, M.; Meier, G.: Magnetic Antivortices. In: Atomic- and Nanoscale Magnetism, 1st Ed. Ed., pp. 299 - 323 (Ed. Wiesendanger, R.). Springer Nature Switzerland AG, Basel (2018)
925.
Book Chapter
Stein, F.-U.; Meier, G.: Electron Transport in Ferromagnetic Nanostructures. In: Atomic- and Nanoscale Magnetism, 1st Ed. Ed., pp. 359 - 383 (Ed. Wiesendanger, R.). Springer Nature Switzerland AG, Basel (2018)
926.
Book Chapter
Behncke, C.; Adolff, C. F.; Meier, G.: Magnetic Vortices. In: Topology in Magnetism, pp. 75 - 115 (Eds. Zang, J.; Cros, V.; Hoffmann, A.). Springer (2018)
927.
Book Chapter
Cahangirov, S.; Sahin, H.; Le Lay, G.; Rubio, A.: A Brief History of Silicene. In: Lecture Notes in Physics, Vol. 930, pp. 1 - 11. Springer International Publishing AG, Basel, Switzerland (2017)
928.
Book Chapter
Cahangirov, S.; Sahin, H.; Le Lay, G.; Rubio, A.: Freestanding Silicene. In: Lecture Notes in Physics, Vol. 930, pp. 13 - 39. Springer International Publishing AG, Basel, Switzerland (2017)
929.
Book Chapter
Cahangirov, S.; Sahin, H.; Le Lay, G.; Rubio, A.: Silicene on Ag Substrate. In: Lecture Notes in Physics, Vol. 930, pp. 41 - 52. Springer International Publishing AG, Basel, Switzerland (2017)
930.
Book Chapter
Cahangirov, S.; Sahin, H.; Le Lay, G.; Rubio, A.: Multilayer Silicene. In: Lecture Notes in Physics, Vol. 930, pp. 53 - 61. Springer International Publishing AG, Basel, Switzerland (2017)
931.
Book Chapter
Cahangirov, S.; Sahin, H.; Le Lay, G.; Rubio, A.: Germanene, Stanene and Other 2D Materials. In: Lecture Notes in Physics, Vol. 930, pp. 63 - 85. Springer International Publishing AG, Basel, Switzerland (2017)
932.
Book Chapter
Cahangirov, S.; Sahin, H.; Le Lay, G.; Rubio, A.: Strain Engineering of 2D Materials. In: Lecture Notes in Physics, Vol. 930, pp. 87 - 96. Springer International Publishing AG, Basel, Switzerland (2017)
933.
Book Chapter
Larsen, A. H.; De Giovannini, U.; Rubio, A.: Dynamical Processes in Open Quantum Systems from a TDDFT Perspective: Resonances and Electron Photoemission. In: Topics in Current Chemistry, Vol. 368, pp. 219 - 271 (Eds. Ferré, N.; Filatov, M.; Huix-Rotllant, M.). Springer International Publishing, Cham, Switzerland (2016)

Thesis - PhD (67)

934.
Thesis - PhD
Rokaj, V.: Condensed Matter Systems in Cavity Quantum Electrodynamics. Dissertation, 225 pp., Universität Hamburg, Hamburg (2021)
935.
Thesis - PhD
von Hoegen, A.: Probing Nonlinear Dynamics in Strongly Driven Quantum Materials. Dissertation, 225 pp., Universität Hamburg, Hamburg (2021)
936.
Thesis - PhD
Welakuh, D.: Ab initio Strong Light-Matter Theoretical Framework for Phenomena in Non-relativistic Quantum Electrodynamics. Dissertation, 215 pp., Universität Hamburg, Hamburg (2021)
937.
Thesis - PhD
Tchenkoue Djouom, M.-L.: A unifying approximation scheme for density functional theories: A force balance based approach. Dissertation, 111 pp., Universität Hamburg, Hamburg (2021)
938.
Thesis - PhD
Buchholz, F.: Many Electrons and the Photon Field: The many-body structure of nonrelativistic quantum electrodynamics. Dissertation, 286 pp., Technische Universität Berlin, Berlin (2021)
939.
Thesis - PhD
Budden, M.: Metastable Light-Induced Superconductivity in K3C60. Dissertation, 199 pp., Universität Hamburg, Hamburg (2021)
940.
Thesis - PhD
Cheng, S.: Multi-picosecond Ho:YLF-pumped supercontinuum generation and ZnGeP2-based optical parametric amplifiers in the fingerprint regime. Dissertation, 118 pp., Universität Hamburg, Hamburg (2021)
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