Yambo Post Processing (ypp): Difference between revisions

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* Brillouin Zone:<br>
* Brillouin Zone:<br>
  '''-k p''' → write the k-point list in different format
  '''-k p''' → write the k-point list in different format
** '''-k q''' →   write the q-point list in different format
'''-k q''' → write the q-point list in different format
** '''-k s''' →   generate shifted k-points grid
'''-k s''' → generate shifted k-points grid
** '''-k h''' →   write the highest symmetry points in the BZ
'''-k h''' → write the highest symmetry points in the BZ
** '''-k r''' →   generate random k-points in the BZ
'''-k r''' → generate random k-points in the BZ
** '''-k e''' →   generate regular k-points grids  
'''-k e''' → generate regular k-points grids  
** '''-map''' →   map a fine grid of k-points on the coarse one, see [https://www.attaccalite.com/speed-up-dielectric-constant-calculations-using-the-double-grid-method-with-yambo/ Double-grid in Yambo]
'''-map''' → map a fine grid of k-points on the coarse one, see [https://www.attaccalite.com/speed-up-dielectric-constant-calculations-using-the-double-grid-method-with-yambo/ Double-grid in Yambo]


* Convertions:
* Convertions:
** '''-y'''  →    Remove symmetries not consistent with an external perturbation, see [https://www.yambo-code.org/wiki/index.php?title=Prerequisites_for_Real_Time_propagation_with_Yambo Real Time propagation with Yambo]  
'''-y'''  →    Remove symmetries not consistent with an external perturbation, see [https://www.yambo-code.eu/wiki/index.php?title=Prerequisites_for_Real_Time_propagation_with_Yambo Real Time propagation with Yambo] and [https://www.attaccalite.com/lumen/linear_response.html Linear response in real-time]
and [https://www.attaccalite.com/lumen/linear_response.html Linear response in real-time]
'''-qpdb g''' →  generate-modify quasi-particle(QP) database
  -qpdb                 <string>  :Quasiparticle Databases (more with -h qpdb)
'''-qpdb m''' →  merge quasi-particle(QP) databases
'''-qpdb e''' →  expand quasi-particle(QP) database in the full Brillouin zone(BZ)


* Plots:
* Plots:
  -BSiq            (-b) <int>      :Excitonic State Momentum
  '''-b''' → Select the momentum of the exciton you want to analize (default = 1)
  -electron       (-s) <string>   :Electronic properties (more with -h electron)
'''-s w'''  → Plot electron wave-functions
  -exciton         (-e) <string>   :Excitonic properties (more with -h exciton)
'''-s d'''  → Plot electron density
  -dipoles              <string>  :Dipole properties (more with -h dipoles)
'''-s s'''  → Plot electron density of states
  -freehole                        :Free hole position in the excitonic plot
  '''-s m'''  → Plot electron magnetization
  -avehole                        :Average hole/electron wavefunction
'''-s b'''  → Interpolate electronic bands using the approach of Ref.<ref name='interp'>Warren E. Pickett, Henry Krakauer, and Philip B. Allen  [https://journals.aps.org/prb/abstract/10.1103/PhysRevB.38.2721 PRB 38 p2721 (1988)]</ref>, adding  '''-V qp''' includes the quasi-particle correction
  '''-s c'''  → Plot the current density
 
  '''-e s'''  → Sort exciton according to their energy and dipole, see [https://www.yambo-code.eu/wiki/index.php?title=How_to_analyse_excitons How to analyze excitons]
  '''-e sp''' → Plot exciton spin
   '''-e a'''  → Write exciton coefficients amplitudes
  '''-e w''' → Plot excitonic wave-function for fixed hole position, see [https://www.yambo-code.eu/wiki/index.php?title=How_to_analyse_excitons How to analyze excitons]
  '''-e i'''  → Interpolate excitonic dispersion<ref name='interp'></ref>, requires BSE for all q-points, see [https://www.yambo-code.eu/wiki/index.php?title=How_to_analyse_excitons How to analyze excitons]
   '''-dipoles exc'''  →  Print excitonic dipoles, see [https://www.yambo-code.eu/wiki/index.php?title=How_to_analyse_excitons#Sort_the_excitonic_eigenvalues How to analyze excitons]
  '''-dipoles ip'''  →  Print Kohn-Sham dipole matrix elements
  '''-freehole'''  → Plot excitonic wave-function with free hole position
  '''-avehole''' → Plot excitonic wave-function with average hole/electron wavefunction, see  [https://www.yambo-code.eu/wiki/index.php?title=How_to_analyse_excitons How to analyze excitons]


* SOC:
* SOC:
  -soc            (-w)            :Perturbative SOC mapping
  ''' -soc '''  → Perturbative SOC mapping
 
Special features in '''ypp_ph''':
 
'''-g g''' → Read GKKP databases from QuantumEspresso, see [https://www.yambo-code.eu/wiki/index.php?title=Electron_Phonon_Coupling Electron phonon coupling]
'''-g d''' → Read double-grid for phonons, see [https://www.yambo-code.eu/wiki/index.php?title=Electron_Phonon_Coupling Electron phonon coupling]
'''-g p''' → Plot the module of the gkkp matrix elements
 
'''-p d''' → Phonon density of states
'''-p e''' → Electronic Eliashberg functions, see [https://www.yambo-code.eu/wiki/index.php?title=Electron_Phonon_Coupling Electron phonon coupling]
 
'''-e e''' → Excitonic Eliashberg functions, see  [https://www.yambo-code.eu/wiki/index.php?title=Optical_properties_at_finite_temperature Optical properties at finite temperature]
'''-e g''' → Exciton-phonon matrix elements (only diagonal part)
'''-e p''' → Phonon-assisted excitonic density of state,  [https://www.yambo-code.eu/wiki/index.php?title=Optical_properties_at_finite_temperature Optical properties at finite temperature]
 
Special features in '''ypp_nl''':
'''-u''' → Analise the non-linear response, see [https://www.yambo-code.eu/wiki/index.php?title=Real_time_approach_to_non-linear_response#Analysis_of_the_results Non-linear spectroscopy]
 
== References ==

Latest revision as of 09:34, 23 February 2024

YPP is a post-processing tool included in the Yambo distribution.
In this tutorial we present a non-exhaustive list of the things that can be calculated with this tool.


  • Brillouin Zone:
-k p → write the k-point list in different format
-k q → write the q-point list in different format
-k s → generate shifted k-points grid
-k h → write the highest symmetry points in the BZ
-k r → generate random k-points in the BZ
-k e → generate regular k-points grids 
-map → map a fine grid of k-points on the coarse one, see Double-grid in Yambo
  • Convertions:
-y  →     Remove symmetries not consistent with an external perturbation, see Real Time propagation with Yambo and Linear response in real-time
-qpdb g →  generate-modify quasi-particle(QP) database
-qpdb m →  merge quasi-particle(QP) databases
-qpdb e →  expand quasi-particle(QP) database in the full Brillouin zone(BZ)
  • Plots:
-b → Select the momentum of the exciton you want to analize (default = 1)
-s w  → Plot electron wave-functions
-s d  → Plot electron density
-s s  → Plot electron density of states
-s m  → Plot electron magnetization
-s b  → Interpolate electronic bands using the approach of Ref.[1], adding  -V qp includes the quasi-particle correction
-s c  → Plot the current density
 -e s  → Sort exciton according to their energy and dipole, see How to analyze excitons
 -e sp → Plot exciton spin
 -e a  → Write exciton coefficients amplitudes 
 -e w  → Plot excitonic wave-function for fixed hole position, see How to analyze excitons
 -e i  → Interpolate excitonic dispersion[1], requires BSE for all q-points, see How to analyze excitons
 -dipoles exc  →   Print excitonic dipoles, see How to analyze excitons
 -dipoles ip  →   Print Kohn-Sham dipole matrix elements
 -freehole   →  Plot excitonic wave-function with free hole position
 -avehole  → Plot excitonic wave-function with average hole/electron wavefunction, see  How to analyze excitons
  • SOC:
  -soc   →  Perturbative SOC mapping

Special features in ypp_ph:

-g g → Read GKKP databases from QuantumEspresso, see Electron phonon coupling
-g d → Read double-grid for phonons, see Electron phonon coupling
-g p → Plot the module of the gkkp matrix elements
-p d → Phonon density of states
-p e → Electronic Eliashberg functions, see Electron phonon coupling
-e e → Excitonic Eliashberg functions, see  Optical properties at finite temperature
-e g → Exciton-phonon matrix elements (only diagonal part)
-e p → Phonon-assisted excitonic density of state,  Optical properties at finite temperature

Special features in ypp_nl:

-u → Analise the non-linear response, see Non-linear spectroscopy

References

  1. 1.0 1.1 Warren E. Pickett, Henry Krakauer, and Philip B. Allen PRB 38 p2721 (1988)