Reviews | |||||
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Challenges of modeling nanostructured materials for photocatalytic water splitting |
B. Samanta, Á. Morales-García, F. Illas, N. Goga, J. A. Anta, S. Calero, A. Bieberle-Hütter, F. Libisch, A. B. Muñoz-García, M. Pavone, M. Caspary Toroker | Chemical Society Reviews 51, 3794-3818 (2022) | ||
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Quantum Mechanical Correlated Wavefunction Embedding Schemes: Theory and Applications Chosen for cover, Vol. 47, Iss. 9 |
F. Libisch, C. Huang, and E. A. Carter | Accounts of Chemical Research, 47, 2768 (2014) | ||
Peer-reviewed book chapters | |||||
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Numerical Challenges in a Cholesky-decomposed Local Correlation Quantum Chemistry Framework | D. Krisiloff, J. Dieterich, F. Libisch, and E. A. Carter |
In: Mathematical and Computational Modeling: With Applications in Engineering and the Natural and Social Sciences, Editor: Roderick Melnik, Wiley, ISBN-10: 1118853989 (2015) |
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Peer-reviewed manuscripts | |||||
| 2025 | |||||
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Multi-Technique Characterization of Rhodium Gem-Dicarbonyls on TiO2(110) | Moritz Eder, Faith J. Lewis, Johanna I. Hütner, Panukorn Sombut, Maosheng Hao, David Rath, Jan Balajka, Margareta Wagner, Matthias Meier, Cesare Franchini, Ulrike Diebold, Michael Schmid, Florian Libisch, Jiří Pavelec, Gareth S. Parkinson | arXiv:2506.21068 (2025) | ||
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Current-induced brightening of vacancy-related emitters in hexagonal boron nitride | Corinne Steiner, Rebecca Rahmel, Frank Volmer, Rika Windisch, Lars H. Janssen, Patricia Pesch, Kenji Watanabe, Takashi Taniguchi, Florian Libisch, Bernd Beschoten, Christoph Stampfer, Annika Kurzmann | Physical Review Research, in press (2025) | ||
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A machine learning approach to predict tight-binding parameters for point defects via the projected density of states | Henry P. Fried, Daniel Barragan-Yani, Florian Libisch, and Ludger Wirtz | npj Computational Materials 11, 176 (2025) | ||
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Strain engineering of valley-polarized hybrid excitons in a 2D semiconductor | Abhijeet M Kumar, Douglas J Bock, Denis Yagodkin, Edith Wietek, Bianca Höfer, Max Sinner, Pablo Hernández López, Sebastian Heeg, Cornelius Gahl, Florian Libisch, Alexey Chernikov, Ermin Malic, Roberto Rosati, Kirill I Bolotin | arXiv:2502.11232 (2025) | ||
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On the role of Electronic Doorway States in the Secondary Electron Emission from Solids | Anna Niggas, Maosheng Hao, Peter Richter, Florian Simperl, Felix Blödorn, M Cap, Johannes Kero, D Hofmann, Alessandra Bellissimo, Joachim Burgdörfer, Thomas Seyller, Richard A Wilhelm, Florian Libisch, Wolfgang SM Werner | arXiv:2501.06228 (2025) | ||
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Corrugation-dominated mechanical softening of defect-engineered graphene | Wael Joudi, Rika Saskia Windisch, Alberto Trentino, Diana Propst, Jacob Madsen, Toma Susi, Clemens Mangler, Kimmo Mustonen, Florian Libisch, Jani Kotakoski | Physical Review Letters 134, 166102 (2025) | ||
| 2024 | |||||
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Line defects as valley filters in graphene | Siyar Duman, Christoph Schattauer, and Florian Libisch | Physica Status Solidi B, DOI 10.1002/pssb.202400418 (2024) | ||
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Dissociation Energies via Embedding Techniques | Feyersinger, Florian; Hartmann, Peter; Hoja, Johannes; Reinholdt, Peter; Libisch, Florian; Kongsted, Jacob; Puschnig, Peter; Boese, A. Daniel | J. Phys. Chem. A 128 DOI: 10.1021/acs.jpca.4c02851 (2024) | ||
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Attosecond chronoscopy of the photoemission near a bandgap of a single-element layered dielectric | Dionysios Potamianos, Maximilian Schnitzenbaumer, Christoph Lemell, Pascal Scigalla, Florian Libisch, Eckhard Schock-Schmidtke, Michael Haimerl, Christian Schröder, Martin Schäffer, Johannes T. Küchle, Johann Riemensberger, Karl Eberle, Yang Cui, Ulf Kleineberg, Joachim Burgdörfer, Johannes V. Barth, Peter Feulner, Francesco Allegretti, and Reinhard Kienberger | Science Advances 10, eado0073 (2024) | ||
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Negative electronic compressibility in charge islands in twisted bilayer graphene | Robin J. Dolleman, Alexander Rothstein, Ammon Fischer, Lennart Klebl, Lutz Waldecker, Kenji Watanabe, Takashi Taniguchi, Dante M. Kennes, Florian Libisch, Bernd Beschoten, and Christoph Stampfer | Phys. Rev. B 109, 155430 (2024) | ||
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Band gap formation in commensurate twisted bilayer graphene/hBN moire lattices | A. Rothstein, C. Schattauer, R. J. Dolleman, S. Trellenkamp, F. Lentz, K. Watanabe, T. Taniguchi, D. M. Kennes, B. Beschoten, C. Stampfer, and F. Libisch | Phys. Rev. B 109, 155139 (2024) | ||
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Strain fingerprinting of exciton valley character | A. Kumar, D. Yagodkdin, R. Rosati, D. J. Bock, C. Schattauer, S. Tobisch, J. Hagel, B. Höfer, J. N. Kirchhof, P. Hernandez Lopez, K. Burfeindt, S. Heeg, C. Gahl, F. Libisch, E. Malic, and K. I. Bolotin | Nature Comm 15, 7546 (2024) | ||
| 2023 | |||||
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Quantifying Strain in moiré Superlattice | Jiamin Quan, Ganbin Chen, Lukas Linhart, Zhida Liu, Takashi Taniguchi, Kenji Watanabe, Florian Libisch, Rui Huang, and Xiaoqin Li | Nano Letters, article ASAP (2023) | ||
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Coupled phonons in twisted bilayer graphene | N. Girotto, L. Linhart, and F. Libisch | Phys. Rev. B 108, 155415 (2023) | ||
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Stability of destructive quantum interference antiresonances in electron transport through graphene nanostructures | A. Valli, T. Fabian, F. Libisch, and R. Stadler | Carbon 214, 118358 (2023) | ||
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Substrate Photonic Effects in the Non-equilibrium Optical Response of Two-Dimensional Semiconductors | Valerie Smejkal, Chiara Trovatello, Qiuyang Li, Stefano Dal Conte, Andrea Marini, Xiaoyang Zhu, Giulio Cerullo, and Florian Libisch | Optics Express 31, 107 (2023) | ||
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Mapping quantum Hall edge states in graphene by scanning tunneling microscopy | T. Johnsen, C. Schattauer, S. Samaddar, A. Weston, M. Hamer, K. Watanabe, T. Taniguchi, R. Gorbachev, F. Libisch, M. Morgenstern | Phys. Rev. B 107, 115426 (2023) | ||
| 2022 | |||||
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Particlelike valleytronics in graphene | T. Fabian, L. Walzek, J. Burgdörfer, G. Datseris, and F. Libisch | Phys. Rev. B 106, 125419 (2022) | ||
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Strain control of hybridization between dark and localized excitons in a 2D semiconductor | P. H. Lopez, S. Heeg, C. Schattauer, S. Kovalchuk, A. Kumar, D. J. Bock, J. N. Kirchhof, B. Hoefer, K. Greben, F. Libisch, and K. I. Bolotin | Nature Comm. 13, 7691 (2022) | ||
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Machine learning sparse tight-binding parameters for defects | C. Schattauer, M. Todorović, K. Ghosh, P. Rinke, and F. Libisch | npj Computational Materials 8, 116 (2022) | ||
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The speed limit of optoelectronics | M. Ossiander, K. Golyari, K. Scharl, L. Lehnert, F. Siegrist, J. P. Bürger, D. Zimin, J. A. Gessner, M. Weidman, I. Floss, V. Smejkal, S. Donsa, C. Lemell, F. Libisch, N. Karpowicz, J. Burgdörfer, F. Krausz, and M. Schultze | Nature Communications 13, 1620 (2022) | ||
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Transient field-resolved reflectometry at 50-100 THz | M. Neuhaus, J. Schötz, M. Aulich, A. Srivastava, D. Kimbaras, V. Smejkal, V. Pervak, M. Alharbi, A. M. Azeer, F. Libisch, C. Lemell, J. Burgdörfer, Z. Wang, and M. F. Kling | Optica 9, 42-49 (2022) | ||
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Half-integer Wannier diagram and Brown-Zak fermions of graphene on hexagonal boron nitride | T. Fabian, M. Kausel, L. Linhart, J. Burgdörfer, and F. Libisch | Phys. Rev. B 106, 165412 (2022) | ||
| 2021 | |||||
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Mirror Symmetry Breaking and Lateral Stacking Shifts in Twisted Trilayer Graphene | Chao Lei, Lukas Linhart, Wei Qin, Florian Libisch, and Allan H. MacDonald | Physical Review B 104, 035139 (2021) | ||
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Phonon Renormalization in Reconstructured MoS2 Moiré Superlattices, Nature Materials cover | Jiamin Quan, Lukas Linhart, Miao-Ling Lin, Daehun Lee, Jihang Zhu, Chun-Yuan Wang, Wei-Ting Hsu, Junho Choi, Jacob Embley, Carter Young, Takashi Taniguchi, Kenji Watanabe, Chih-Kang Shih, Keji Lai, Allan H. MacDonald, Ping-Heng Tan, Florian Libisch, Xiaoqin Li | Nature Materials 20, 1100 (2021) | ||
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Local embedding of Coupled Cluster theory into the Random Phase Approximation using plane-waves | Tobias Schäfer, Florian Libisch, Georg Kresse, and Andreas Grüneis | J. Chem. Phys 154, 011101 (2021) | ||
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Minigap and Andreev bound states in ballistic graphene | Luca Banszerus, Florian Libisch, Andrea Ceruti, Stefan Blien, Kenji Watanabe, Takashi Taniguchi, Andreas K. Hüttel, Bernd Beschoten, Fabian Hassler, Christoph Stampfer | Submitted, arXiv:2011.11471 (2020) | ||
| 2020 | |||||
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Time-dependent screening explains the ultrafast excitonic signal rise in 2D semiconductors | V. Smejkal, F. Libisch, A. Molina-Sanchez, C. Trovatello, L. Wirtz, A. Marini | ACS Nano, 10.1021/acsnano.0c08173 (2020) | ||
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Graphene quantum dot states near defects | C. Schattauer, L. Linhart, T. Fabian, T. Jawecki, W. Auzinger, and F. Libisch | Physical Review B 102, 155430 (2020) | ||
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Electron-hole crossover in gate-controlled bilayer graphene quantum dots | Luca Banszerus, Alexander Rothstein, Thomas Fabian, Samuel Möller, Eicke Icking, Stefan Trellenkamp, Florian Lentz, Daniel Neumaier, Kenji Watanabe, Takashi Taniguchi, Florian Libisch, Christian Volk, Christoph Stampfer | Nano Letters, articles ASAP, DOI: 10.1021/acs.nanolett.0c03227 (2020) | ||
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Atomic-scale carving of nanopores into a van der Waals heterostructure with slow highly-charged ions | J. Schwestka, H. Inani, M. Tripathi, A. Niggas, N. McEvoy, F. Libisch, F. Aumayr, J. Kotakoski, and R. A. Wilhelm | ACS Nano, DOI: 10.1021/acsnano.0c04476 (2020) | ||
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Electrostatic detection of Shubnikov-de-Haas oscillations in bilayer graphene by Coulomb resonances in gate-defined quantum dots | L. Banszerus, T. Fabian, S. Möller, E. Icking, H. Heiming, S. Trellenkamp, F. Lentz, D. Neumaier, M. Otto, K. Watanabe, T. Taniguchi, F. Libisch, C. Volk, and C. Stampfer | Phys. Status solidi, DOI: 10.1002/pssb.202000333, (2020) | ||
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A membrane theory for circular graphene sheets, based on a hyperelastic material model for large deformations | R. Höller, F. Libisch, and C. Hellmich | Mechanics of Advanced Materials and Structures, DOI: 10.1080/15376494.2020.1785598 (2020) | ||
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Energy landscapes of graphene under general deformations: DFT-to-hyperelasticity upscaling | R. Höller, V. Smejkal, F. Libisch, and C. Hellmich | International Journal of Engineering Science 154, 103342 (2020) | ||
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Secondary Electron Emission by Plasmon Induced Symmetry Breaking in Highly Oriented Pyrolitic Graphite (HOPG) | W. S. M. Werner, V. Astausauskas, P. Ziegler, A. Bellissimo, G. Stefani, L. Linhart, and F. Libisch | Physical Review Letters 125, 196603 (2020) | ||
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Band nesting in two-dimensional crystals: an exceptionally sensitive probe of strain | L. Mennel, V. Smejkal, L. Linhart, J. Burgdörfer, F. Libisch, and T. Mueller | Nano Letters, doi: 10.1021/acs.nanolett.0c00694 (2020) | ||
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Observation of the spin-orbit gap in bilayer graphene by one-dimensional ballistic transport | L. Banszerus, B. Frohn, T. Fabian, S. Somanchi, A. Epping, M. Müller, D. Neumaier, K. Watanabe, T. Taniguchi, F. Libisch, B. Beschoten, F. Hassler, and C. Stampfer | Physical Review Letters 124, 177701 (2020) | ||
| 2019 | |||||
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Extraordinary high room-temperature carrier mobility in graphene-WSe2 heterostructures | L. Banszerus, T. Sohier, A. Epping, F. Winkler, F. Libisch, F. Haupt, K. Watanabe, T. Taniguchi, K. Müller-Caspary, N. Marzari, F. Mauri, B. Beschoten, and C. Stampfer | submitted, arXiv:1909.09523 (2019) | ||
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Energy of the 229Th nuclear clock transition, Nature cover | B. Seiferle, L. von der Wense, P. V. Bilous, I. Amersdorffer, C. Lemell, F. Libisch, S. Stellmer, T. Schumm, C. E. Düllmann, A. Palffy, and P. G. Thirolf | Nature 573, 243-246 (2019) | ||
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Localized inter-valley defect excitons as single-photon emitters in WSe2 | L. Linhart, M. Paur, V. Smejkal, J. Burgdörfer, T. Mueller, and F. Libisch | Physical Review Letters 123, 146401 (2019) | ||
| 2018 | |||||
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Topologically non-trivial valley states in bilayer graphene quantum point contacts | H. Overweg, A. Knothe, T. Fabian, L. Linhart, P. Rickhaus, L. Wernli, K. Watanabe, T. Taniguchi, D. Sánchez, J. Burgdörfer, F. Libisch, V. I. Fal'ko, K. Ensslin, and T. Ihn | Physical Review Letters 121, 257702 (2018) | ||
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Absolute timing of the photoelectric effect, Nature News and Views | M. Ossiander, J. Riemensberger, S. Neppl, M. Mittermair, M. Schäffer, A. Duensing, M. S. Wagner, R. Heider, M. Wurzer, M. Gerl, M. Schnitzenbaumer, J. V. Barth, F. Libisch, C. Lemell, J. Burgdörfer, P. Feulner, and R. Kienberger | Nature 561, 374-377 (2018) | ||
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Density functional embedding for periodic and nonperiodic diffusion Monte Carlo calculations | K. Doblhoff-Dier, G.-J. Kroes, and F. Libisch | Phys. Rev. B 98, 085138 (2018) | ||
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Dissociative Chemisorption of O2 on Al(111): Dynamics on a Correlated Wavefunction Based Potential Energy Surface | R. Yin, Y. Zhang, F. Libisch, E. A. Carter, H. Guo, and B. Jiang | J. Chem. Phys. Lett. 9, 3271 (2018) | ||
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Impact of Many-Body Effects on Landau Levels in Graphene | J. Sonntag, S. Reichardt, L. Wirtz, B. Beschoten, M. I. Katsnelson, F. Libisch, and C. Stampfer | Physical Review Letters 120, 187701 (2018) | ||
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Tunable giant valley splitting in edge-free graphene quantum dots on boron nitride | N. M. Freitag, T. Reisch, L. A. Chizhova, P. Nemes-Incze, C. Holl, C. R. Woods, R. V. Gorbachev, Y. Cao, A. K. Geim, K. S. Noveselov, J. Burgdörfer, F. Libisch, and M. Morgenstern | Nature Nanotechnology 13, 392-397 (2018) | ||
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Accurate modeling of defects in graphene transport calculations | L. Linhart, J. Burgdörfer, and F. Libisch | Phys. Rev. B 97 , 035430 (2018) | ||
| 2017 | |||||
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Embedding for bulk systems using localized atomic orbitals | F. Libisch, M. Marsman, J. Burgdörfer, and G. Kresse | J. Chem. Phys. 147, 034110 (2017) | ||
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High-harmonic generation in graphene: Interband response and the harmonic cut-off | L. A. Chizhova, F. Libisch, and J. Burgdörfer | Phys.Rev.B 95, 085436 (2017) | ||
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Potential Functional Embedding Theory at the Correlated Wave Function Level, Part I: Mixed Basis Set Embedding | J. Cheng, F. Libisch, K. Yu, C. Mohan, J. Dieterich, and E. A. Carter | J. Chem. Theory Comput. 13, 1067-1080 (2017) | ||
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Coherent control of two-color above-threshold photoemission from tungsten nanotips | T. Paschen, M. Förster, M. Krüger, C. Lemell, G. Wachter, F. Libisch, T. Madlener, J. Burgdörfer, and P. Hommelhoff | Journal of Physics: Conference Series 875, 043006 (2017) | ||
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Potential Functional Embedding Theory at the Correlated Wave Function Level, Part II: Error Sources and Performance Tests | J. Cheng, K. Yu, F. Libisch, J. Dieterich, and E. A. Carter | J. Chem. Theory Comput. 13, 1081-1093 (2017) | ||
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High Visibility in Two-Color Above-Threshold Photoemission from Tungsten Nanotips in a Coherent Control Scheme | T. Paschen, M. Förster, M. Krüger, C. Lemell, G. Wachter, F. Libisch, T. Madlener, J. Burgdörfer, and P. Hommelhoff | Journal of Modern Optics 64, 1054-1060 (2017) | ||
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Veselago lens and Klein collimator in disordered graphene | F. Libisch, T. Hisch, R. Glattauer, L. Chizhova, and J. Burgdörfer | J. Phys. Cond. Mat., 29, 114002 (2017) | ||
| 2016 | |||||
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Ultrafast electronic response of graphene to a strong and localized electric field | E. Gruber, R. Wilhelm , R. Petuya, V. Smejkal, R. Kozubek , A. Hierzenberger, B. Bayer, I. Aldazabal, A. Kazansky , F. Libisch, A. Krasheninnikov, M. Schleberger, S. Facsko, A. G. Borisov, A. Arnau, and F. Aumayr | Nature Comm. 7, 13948 (2016) | ||
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Two-color coherent control of femtosecond above-threshold photoemission from a tungsten nanotip, Physics Viewpoint | M. Förster, T. Paschen, M. Krüger, C. Lemell, G. Wachter, F. Libisch, T. Madlener, J. Burgdörfer, and P. Hommelhoff | Physical Review Letters 117, 217601 (2016) | ||
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Electrostatically confined monolayer graphene quantum dots with orbital and valley splittings | N. M. Freitag, L. A. Chizhova, P. Nemes-Incze, C. R. Woods, R. Gorbachev, Y. Cao, A. K. Geim, K. Novoselov, J. Burgdörfer, F. Libisch, and M. Morgenstern | Nano Letters, 16, 5798 (2016) | ||
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Nonlinear response of graphene to a few cycle THz laser pulse: Role of doping and disorder | L. Chizhova, F. Libisch, and J. Burgdörfer | Phys.Rev.B 94, 075412 (2016) | ||
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Dynamically encircling exceptional points in a waveguide: asymmetric mode switching from the breakdown of adiabaticity | J. Doppler, A. A. Mailybaev, J. Böhm, U. Kuhl, A. Girschik, F. Libisch, T. J. Milburn, P. Rabl, N. Moiseyev, and S. Rotter. | Nature 537, 76-79 (2016) | ||
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Size quantization of Dirac fermions in graphene constrictions Press release |
B. Terrés, L. A. Chizhova, F. Libisch, J. Peiro, D. Jörger, S. Engels, A. Girschik, K. Watanabe, T. Taniguchi, S. V. Rotkin, J. Burgdörfer and C. Stampfer | Nature Comm. 7, 11528 (2016) | ||
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Transport through graphene nanoribbons: suppression of transverse quantization by symmetry breaking |
F. Libisch, A. Klimann, S. Rotter, and J. Burgdörfer | Physica Status Solidi B, doi: 10.1002/pssb.201600260 (2016) | ||
| 2015 | |||||
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Graphene nanoribbons with wings | D. Bischoff, M. Eich, F. Libisch, T. Ihn, and K. Ensslin | Appl. Phys. Lett. 107, 203107 (2015) | ||
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Magneto-optical response of graphene: probing substrate interactions | L. Chizhova, J. Burgdörfer, and F. Libisch | Phys. Rev. B. 92, 125411 (2015) | ||
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Implementation of Density-Functional Embedding Theory within the Projector-Augmented-Wave Method and Applications to Semiconductor Defect States | K. Yu, F. Libisch, and E. A. Carter | J. Chem. Phys. 143, 102806 (2015) | ||
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Percolating states in the topological Anderson insulator | A. Girschik, F. Libisch, and S. Rotter | Phys. Rev. B 91, 214204 (2015) | ||
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Dissociative Adsorption of O2 on Al(111): the Role of Orientational Degrees of Freedom | J. Cheng, F. Libisch, and E. A. Carter | J. Phys. Chem. Lett. 6, 1661 (2015) | ||
| 2014 | |||||
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Graphene quantum dot on boron nitride: Dirac cone replica and Hofstadter butterfly | L. A. Chizhova, F. Libisch, and J. Burgdörfer | Phys. Rev. B 90, 165404 (2014) | ||
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Diffractive wave guiding of hot electrons by the Au (111) herringbone reconstruction | F. Libisch, V. Geringer, D. Subramaniam, J. Burgdörfer, and M. Morgenstern | Phys. Rev. B 90, 035442 (2014) | ||
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Shared-memory parallelization of a local correlation multi-reference CI program | J. Dieterich, D. Krisiloff, A. Gaenko, F. Libisch, T. Windus, M. Gordon, and E. A. Carter | Comp. Phys. Comm. 185, 3175 (2014) | ||
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Characterizing wave functions in graphene nanodevices: electronic transport through ultrashort graphene constrictions on a boron nitride substrate | D. Bischoff, F. Libisch, J. Burgdörfer, Thomas Ihn, and Klaus Ensslin |
Phys. Rev. B 90, 115405 (2014) , Editor's suggestion |
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A comparison of singlet and triplet states for one- and two-dimensional graphene nanoribbons using multireference theory | S. Horn, F. Plasser, T. Müller, F. Libisch, J. Burgdörfer, and H. Lischka | Theor. Chem. Acc. 133 , 1511 (2014) | ||
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The single-channel regime of transport through random media | A. Peña, A. Girschik, F. Libisch, S. Rotter, and A. A. Chabanov | Nature Comm. 5, 3488 (2014). | ||
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Angular momentum dependent orbital free density functional theory: Formulation and implementation | Y. Ke, F. Libisch, J. Xia, and E. A. Carter | Physical Review B 89, 155112 (2014) | ||
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Time-dependent potential-functional embedding theory | C. Huang, F. Libisch, Q. Peng, and E. A. Carter | Journal of Chemical Physics 140, 124113 (2014) | ||
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Photovoltaic effect in an electrically tunable van der Waals heterojunction | M. Furchi, A. Posposchil, F. Libisch, J. Burgdörfer, and T. Müller | Nano Letters 14, 4785 (2014) | ||
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Size-extensivity-corrected multireference configuration interaction schemes to accurately predict bond dissociation energies of oxygenated hydrocarbons | V. Oyeyemi, D. Krisiloff, J. Keith, F. Libisch, M. Pavone, and E. A. Carter | Journal of Chemical Physics 140, 044317 (2014) | ||
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Negative quantum capacitance in graphene nanoribbons with lateral gates | R. Reiter, U. Derra, S. Birner, B. Terrés, F. Libisch, J. Burgdörfer, and C. Stampfer | Physical Review B, 89, 115406 (2014) | ||
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Analysis of and remedies for unphysical ground states of the Multireference Averaged Coupled-Pair Functional | D. Krisiloff, V. Oyeyemi, F. Libisch, and E. A. Carter | Journal of Chemical Physics, 140, 024102 (2014) | ||
| 2013 | |||||
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Angular-momentum-dependent orbital-free density-functional theory | Y. Ke, F. Libisch, J. Xia, L.-W. Wang, and E. A. Carter | Physical Review Letters 111, 066402 (2013) | EPAPS | |
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Electron-Transfer-Induced Dissociation of H2 on Gold Nanoparticles: Excited-State Potential Energy Surfaces via Embedded Correlated Wavefunction Theory |
F. Libisch, J. Cheng, and E. A. Carter | Z. Phys. Chem. 227, 1455 (2013) | ||
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Semiclassical wavefunctions for open quantum billiards | F. Lackner, I. Brezinova, F. Libisch, and J. Burgdörfer | Physical Review E 88, 022916 (2013) | ||
| 2012 | |||||
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The Multiradical Character of One- and Two-Dimensional Graphene Nanoribbons |
F. Plasser, H. Pasalic, M. H. Gerzabek, F. Libisch, R. Reiter, J. Burgdörfer, T. Müller, R. Shepard, and H. Lischka |
Angewandte Chemie Int. Ed. 52, 2581 (2013) | ||
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Der Multiradikalcharakter ein- und zweidimensionaler Graphen-Nanobänder |
F. Plasser, H. Pasalic, M. H. Gerzabek, F. Libisch, R. Reiter, J. Burgdörfer, T. Müller, R. Shepard, and H. Lischka |
Angewandte Chemie 125, 2641 (2013) | ||
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Hot Electrons Do the Impossible: Plasmon-Induced Dissociation of H2 on Au |
S. Mukherjee, F. Libisch, N. Large, O. Neumann, L. V. Brown, J. Cheng, J. B. Lassiter, E. A. Carter, P. Nordlander, and N. J. Halas |
Nano Letters 13, 240 (2013) | EPAPS | |
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Topological Insulator in the Presence of Spatially Correlated Disorder
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A. Girschik, F. Libisch, and S. Rotter | Physical Review B 88, 014201 (2013) | ||
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Origin of the energy barrier to chemical reactions of O2 on Al(111): Evidence for charge transfer not spin selection |
F. Libisch, C. Huang, P. Liao, M. Pavone, and E. A. Carter | Physical Review Letters 109, 198303 (2012) | EPAPS | |
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Surface Scattering and Band Gaps in Rough Nanowires and Waveguides
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O. Dietz, H.-J. Stöckmann, U. Kuhl, F. M. Izrailev, N. M. Makarov, J. Doppler, F. Libisch, S. Rotter |
Physical Review B 86, 201106(R) (2012), | PS.GZ | |
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Coherent transport through graphene nanoribbons in the presence of edge disorder
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F. Libisch, S. Rotter, and J. Burgdörfer | New Journal of Physics 14, 123006 (2012), | ||
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Wave function mapping in graphene quantum dots with soft confinement PRL cover, January 27, 2012 |
D. Subramaniam, F. Libisch, Y. Li, C. Pauly, V. Geringer, R. Reiter,
T. Mashoff, M. Liebmann, J. Burgdörfer, C. Busse, T. Michely, R. Mazzarello, M. Pratzer, and M. Morgenstern |
Physical Review Letters 108, 046801 (2012) | PS.GZ | |
| 2011 and earlier | |||||
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Disorder Scattering in Graphene Nanoribbons
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F. Libisch, S. Rotter, and J. Burgdörfer | Physica status solidi (b) 248, 2598 (2011) | ||
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Generating particle-like scattering states in wave transport Selected for Physical Review Focus |
S. Rotter, P. Ambichl, and F. Libisch | Physical Review Letters 106, 120602 (2011) | ||
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Probing decoherence through Fano resonances
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A. Bärnthaler, S. Rotter, F. Libisch, J. Burgdörfer, S. Gehler, U. Kuhl, and H.-J. Stöckmann |
Physical Review Letters 105, 056801 (2010) | PS.GZ | |
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Transition to Landau Levels in graphene quantum dots
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F. Libisch, S. Rotter, J. Güttinger, C. Stampfer, and J. Burgdörfer | Physical Review B 81, 245411 (2010) | PS.GZ | |
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Electron-Hole Crossover in Graphene Quantum Dots
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J. Güttinger, C. Stampfer, F. Libisch, T. Frey, J. Burgdörfer, T. Ihn, and K. Ensslin |
Physical Review Letters 103, 046810 (2009) | PS.GZ | |
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Graphene quantum dots: beyond a Dirac billiard *
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F. Libisch, C. Stampfer, and J. Burgdörfer | Physical Review B 79, 115423 (2009) | PS.GZ | |
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Decreasing excitation gap in Andreev billiards by disorder scattering
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F. Libisch, J. Möller, S. Rotter, M. Vavilov and J. Burgdörfer | Europhysics Letters 82, 47006 (2008) | PS.GZ | |
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Chladni figures in Andreev billiards
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F. Libisch, S. Rotter, and J. Burgdörfer | The European Physical Journal, ST, 145, 245, (2007) | ||
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Non-retracing orbits in Andreev billiards
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F. Libisch, S. Rotter, and J. Burgdörfer | Physical Review B 73, 045324 (2006) | PS.GZ | |
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A Modular Method for the Efficient Calculation of Ballistic Transport Through Quantum Billiards |
S. Rotter, B. Weingartner, F. Libisch, F. Aigner, J. Feist and J. Burgdörfer | Lecture Notes in Computer Science 3743, 586 (2006) | PS.GZ | |
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Fano resonances and decoherence in transport through quantum dots | S. Rotter, U. Kuhl, F. Libisch, J. Burgdörfer, and H.-J. Stöckmann |
Physica E 29, 325 (2005).
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PS.GZ | |
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Bound states in Andreev billiards with soft walls *
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F. Libisch, S. Rotter, J. Burgdörfer,
A. Kormanyos, and J. Cserti
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Physical Review 72, 075304 (2005) | ||
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Tunable Fano resonances in transport through microwave billiards | S. Rotter, F. Libisch, J. Burgdörfer, U. Kuhl, and H.-J. Stöckmann | Physical Review E 69, 046208 (2004). | ||
| The Wonder Material Graphene | F. Libisch | GIT Laboratory Journal, 11/2017 | ||
| Das Wundermaterial Graphene | F. Libisch | GIT Laboratory Journal, 10/2016, German edition |
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Electronic structure and transport in large-scale nanodevices |
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Electron and hole wavefunctions in Andreev billiards |