Navigation :
Manual
Input Variables
-
Atomic Orbitals
-
Calculation Modes
-
ClassicalParticles
-
DFTBPlusInterface
-
Execution
-
Hamiltonian
--
DFT+U
--
PCM
--
Poisson
--
XC
-- AdaptivelyCompressedExchange
-- CalculateSelfInducedMagneticField
-- ClassicalPotential
-- CurrentDensity
-- EnablePhotons
-- EwaldAlpha
-- ExternalCurrent
-- FilterPotentials
-- ForceTotalEnforce
-- GaugeFieldDelay
-- GaugeFieldDynamics
-- GaugeFieldPropagate
-- GaugeVectorField
-- GyromagneticRatio
-- MagneticConstrain
-- MagneticConstrainStrength
-- MassScaling
-- MaxwellHamiltonianOperator
-- MaxwellMediumCalculation
-- ParticleMass
-- RashbaSpinOrbitCoupling
-- RelativisticCorrection
-- RiemannSilbersteinSign
-- SOStrength
-- StaticElectricField
-- StaticMagneticField
-- StaticMagneticField2DGauge
-- TheoryLevel
-- TimeZero
-
Linear Response
-
Math
-
Maxwell
-
MaxwellStates
-
Mesh
-
Output
-
SCF
-
States
-
System
-
Time-Dependent
-
Utilities
-
Alphabetic Index
Tutorials
Developers
Releases
ParticleMass
ParticleMass
Section Hamiltonian
Type float
Default 1.0
It is possible to make calculations for a particle with a mass
different from one (atomic unit of mass, or mass of the electron).
This is useful to describe non-electronic systems, or for
esoteric purposes.