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People currently working in our group:

Claudia Draxl
Benedikt Maurer
Hannah Kleine
Olga Turkina
Pasquale Pavone
Santiago Rigamonti
Sven Lubeck
Tim Bechtel
Konstantin Lion
Martin Kuban
Sebastian Tillack
Axel Hübner
Daniel Speckhard
Mao Yang
Cecilia Vona
Simon Gabaj
Peter Weber
Ignacio Gonzalez
Fabian Peschel
Lu Qiao
Nakib Protik
Manoar Hossain
Manish Kumar
Mara Voiculescu
Elisa Stephan
Adam Newton
  • Claudia Draxl
  • Benedikt Maurer
  • Hannah Kleine
  • Olga Turkina
  • Pasquale Pavone
  • Santiago Rigamonti
  • Sven Lubeck
  • Tim Bechtel
  • Konstantin Lion
  • Martin Kuban
  • Sebastian Tillack
  • Axel Hübner
  • Daniel Speckhard
  • Mao Yang
  • Cecilia Vona
  • Simon Gabaj
  • Peter Weber
  • Ignacio Gonzalez
  • Fabian Peschel
  • Lu Qiao
  • Nakib Protik
  • Manoar Hossain
  • Manish Kumar
  • Mara Voiculescu
  • Elisa Stephan
  • Adam Newton

 

Fabio Caruso

You are here: Home» People» Fabio Caruso

    Dr. Fabio Caruso
    Postdoctoral Researcher
    Humboldt-Universität zu Berlin,
    Institut für Physik
    phone: +49 (0)30 2093 66364
    e-mail: fabio.caruso[at]physik.hu-berlin.de

 

Education

  • Ph.D. Theoretical Physics, Fritz-Haber-Institute der Max-Planck-Gesellschaft, 2013
  • M.Sc. Physics, Universita' degli Studi di Milano, 2009

Former Appointments

  • Postdoctoral Research Assistant, University of Oxford, 2013-2016
  • Junior Research Fellow, Wolfson College, University of Oxford, 2015-2016
  • Postdoctoral Researcher, Fritz-Haber-Institute der Max-Planck-Gesellschaft, 2013

Teaching

  • Elektronstrukturtheorie (Electronic Structure Theory), SoSe 2019
  • Mathematische Grundlagen (Mathematical Introduction), WiSe 2018/2019
  • Theoretische Physik IV (Advanced Quantum Mechanics), WiSe 2017/2018
  • Theoretische Physik III (Quantum Mechanics), SoSe 2017

Publications

[see also: Google scholar

27. D. Novko, F. Caruso, C. Draxl, and E. Cappelluti,
Fingerprints of ultrafast hot-phonon dynamics in MgB2.
Phys. Rev. Lett. (2020). In press.  arXiv

26. F. Caruso, D. Novko, and C. Draxl,
Photoemission Signatures of Non-Equilibrium Carrier Dynamics from First Principles.
Phys. Rev. B 101, 035128 (2020). DOI

25. F. Caruso, M. Troppenz, S. Rigamonti, and C. Draxl,
Thermally-enhanced Fröhlich coupling in SnSe.
Phys. Rev. B 99, 081104(R) (2019). DOI

24. F. Caruso, C. Verdi, and F. Giustino
Many-body calculations of plasmon and phonon satellites in angle-resolved photoelectron spectra using the cumulant expansion approach.
in "Handbook of Materials Modeling: Theory and Modeling", Springer (2018). DOI  arXiv

23.  J. M. Riley, F. Caruso, C. Verdi, L. B. Duffy, M. D. Watson, L. Bawden, K. Volckaert, G. van der Laan, T. Hesjedal, M. Hoesch, F. Giustino, and P. D. C. King, 
Crossover from Lattice to Plasmonic Polarons of a Spin-Polarised Electron Gas in Ferromagnetic EuO
Nature Comm. 9, 2305 (2018). DOI

22. F. Caruso, D. Novko, and C. Draxl,
Phonon-assisted damping of plasmons in three- and two-dimensional metals.
Phys. Rev. B 97, 205118 (2018). DOI

21. F. Caruso, C. Verdi, S. Poncé, and F. Giustino,
Electron-plasmon and electron-phonon satellites in the angle-resolved photoelectron spectra of n-doped anatase TiO2.
Phys. Rev. B 97, 165113 (2018). DOI

20.  F. Caruso, M. Hoesch, P. Achatz, J. Serrano, M. Krisch, E. Bustarret, and F. Giustino,
Non-adiabatic Kohn anomaly in heavily boron-doped diamond.
Phys. Rev. Lett. 119, 017001 (2017). DOI

19.  C. Verdi, F. Caruso, and F. Giustino,
Origin of the crossover from polarons to Fermi liquids in transparent conducting oxides.
Nature Comm. 8, 15769 (2017). DOI

18.  F. Caruso and F. Giustino,
Theory of electron-plasmon coupling in semiconductors.
Phys. Rev. B 94, 115208 (2016). DOI

17.  F. Caruso, M. Dauth, M. J. van Setten, and P. Rinke,
Benchmach of GW approaches for the GW100 testset.
J. Chem. Theory Comput. 12, 5076 (2016). DOI

16.  F. Caruso and F. Giustino,
The GW plus cumulant method and plasmonic polarons: application to the homogeneous electron gas.
Eur. Phys. J. B 89, 238 (2016). DOI

15.  B. Gumhalter, V. Kovac, F. Caruso, H. Lambert and F. Giustino,
On the combined use of GW approximation and cumulant expansion in the calculations of quasiparticle spectra: The paradigm of Si  valence bands.
Phys. Rev. B 94, 035103 (2016). DOI

14.  M. Dauth, F. Caruso, S. Kuemmel, and P. Rinke,
Piecewise linearity in the GW approximation for accurate quasiparticle energy predictions.
Phys. Rev. B 93, 121115(R) (2016). DOI

13.  M. J. van Setten, F. Caruso, S. Sharizfadeh, X. Ren, M. Scheffler, F. Liu, J. Lischner, L. Lin, J. R. Deslippe, S. G. Louie, C. Yang, F. Weigend, J. B. Neaton, F. Evers, and P. Rinke,
GW100: Benchmarking G0W0 for molecular systems.
J. Chem. Theory Comput. 11, 5665 (2015). DOI

12.  F. Caruso, M. R. Filip, and F. Giustino,
Excitons in one-dimensional van der Waals materials: Sb2S3 Nanoribbons.
Phys. Rev. B 92, 125134 (2015). DOI

11.  X. Ren, N. Marom, F. Caruso, M. Scheffler, and P. Rinke,
Beyond the GW approximation: a second-order screened exchange correction.
Phys. Rev. B 92, 081104(R) (2015). DOI

10.  F. Caruso and F. Giustino,
Spectral Fingerprints of Electron-Plasmon Coupling.
Phys. Rev. B 92, 045123 (2015). DOI
Featured in Phys. Rev. B Keleidoscope

9.   F. Caruso, H. Lambert, F. Giustino,
Band Structures of Plasmonic Polarons.
Phys. Rev. Lett. 114, 146404 (2015). DOI

8.   M. Hellgren, F. Caruso, D. R. Rohr, X. Ren, A. Rubio, M. Scheffler, and P. Rinke,
Static correlation and electron localization in molecular dimers from the self-consistent RPA and GW approximations.
Phys. Rev. B 91, 165110 (2015). DOI

7.  F. Caruso, V. Atalla, X. Ren, A. Rubio, M. Scheffler, and P. Rinke,
First-Principles Description of Charge Transfer in Donor-Acceptor Compounds from Self-Consistent Many-Body Perturbation Theory.
Phys. Rev. B 90, 085141 (2014). DOI

6.  V. Atalla, M. Yoon, F. Caruso, P. Rinke, and M. Scheffler,
Hybrid density functional theory meets quasiparticle calculations: A consistent electronic structure approach.
Phys. Rev. B 88, 165122 (2013). DOI

5.  F. Caruso, P. Rinke, X. Ren, A. Rubio, and M. Scheffler,
Self-consistent GW: All-electron implementation with localized basis functions.
Phys. Rev. B 88, 075105 (2013). DOI

4.  F. Caruso, D. R. Rohr, M. Hellgren, 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.
Phys. Rev. Lett. 110, 146403 (2013). DOI

3.  N. Marom, F. Caruso, X. Ren, O. T. Hofmann, T. Körzdörfer, J. R. Chelikowsky, A. Rubio, M. Scheffler, and P. Rinke,
A Benchmark of GW Methods for Azabenzenes.
Phys. Rev. B 86, 245127 (2012). DOI

2.  F. Caruso, P. Rinke, X. Ren, M. Scheffler, and A. Rubio,
Unified description of ground and excited states of finite systems: the self-consistent GW approach.
Phys. Rev. B 86, 081102(R) (2012). DOI

1.  A. Vanossi, N. Manini, F. Caruso, G. E. Santoro, and E. Tosatti,
Static friction on the fly: velocity depinning transitions of lubricants in motion.
Phys. Rev. Lett. 99, 206101 (2007). DOI

 

Other publications

2.  F. Caruso, and F. Giustino,
Non-adiabatic crystal-lattice dynamics in superconducting diamond.
Highlights 2017 of the European Synchrotron Radiation Facility (pg. 105). Link

1.  F. Caruso,
Self-consistent GW approach for the unified description of ground and excited states of finite systems.
PhD thesis (2013). DOI

 

Postal address
Fabio Caruso
Humboldt-Universität zu Berlin,
Institut für Physik,
Zum Grossen Windkanal 6,
Berlin, 12489, Germany