Lumen

Publications

How to cite Lumen:


Since Lumen is derived from Yambo, if you use it please cite the Yambo paper:

Yambo: an ab initio tool for excited state calculations.
A. Marini, C. Hogan, M. Grüning, and D. Varsano, Comp Phys Comm., 180(8), 1392(2009)

If you use Lumen for non-linear optics spectroscopy please cite:

Nonlinear optics from an ab initio approach by means of the dynamical Berry phase: Application to second-and third-harmonic generation in semiconductors
C. Attaccalite, M. Grüning, Physical Review B 88 (23), 235113(2013)

If you use Time-Dependent Polarization Theory implemented in Lumen please cite:

Dielectrics in a time-dependent electric field: a real-time approach based on density-polarization functional theory
M. Grüning, D. Sangalli, C. Attaccalite, Physical Review B 94 (3), 035149(2016)

If you use Real-Time Bethe-Salpeter equation please cite:

Real-time approach to the optical properties of solids and nanostructures: Time-dependent Bethe-Salpeter equation.
C. Attaccalite, M. Grüning, A. Marini, Physical Review B, 84(24), 245110 (2011)



Publications done with Lumen:

  1. Optical properties of periodic systems within the current-current response framework: Pitfalls and remedies
    Davide Sangalli, J. A. Berger, Claudio Attaccalite, Myrta GrĂ¼ning, and Pina Romaniello
    Phys. Rev. B 95, 155203 (2017)
  2. Excitonic effects in third harmonic generation: the case of carbon nanotubes and nanoribbons
    C. Attaccalite, E. Cannuccia, M Grüning
    Phys. Rev. B 95, 125403 (2017)
  3. Non-linear response in extended systems: a real-time approach
    C. Attaccalite
    arXiv preprint arXiv:1609.09639
  4. Dielectrics in a time-dependent electric field: a real-time approach based on density-polarization functional theory
    M Grüning, D Sangalli, C Attaccalite
    Physical Review B 94 (3), 035149(2016)
  5. Performance of polarization functionals for linear and nonlinear optical properties of bulk zinc chalcogenides ZnX (X= S, Se, and Te)
    M. Grüning, C. Attaccalite
    Physical Chemistry Chemical Physics 18 (31), 21179-21189(2016)
  6. Strong second harmonic generation in SiC, ZnO, GaN two-dimensional hexagonal crystals from first-principles many-body calculations
    C. Attaccalite, A. Nguer, E. Cannuccia, M Grüning
    Physical Chemistry Chemical Physics 17 (14), 9533-9540(2015)
  7. Second harmonic generation in h-BN and MoS2 monolayers: Role of electron-hole interaction
    M. Grüning, C. Attaccalite
    Physical Review B 89 (8), 081102(2014)
  8. Nonlinear optics from an ab initio approach by means of the dynamical Berry phase: Application to second-and third-harmonic generation in semiconductors
    C Attaccalite, M Grüning
    Physical Review B 88 (23), 235113(2013)