Copyright | (c) Scott N. Walck 2015-2018 |
---|---|
License | BSD3 (see LICENSE) |
Maintainer | Scott N. Walck <walck@lvc.edu> |
Stability | experimental |
Safe Haskell | Trustworthy |
Language | Haskell98 |
This module contains functions to solve the (time dependent) Schrodinger equation in one spatial dimension for a given potential function.
Synopsis
- freeV :: Double -> Double
- harmonicV :: Double -> Double -> Double
- squareWell :: Double -> Double -> Double -> Double
- doubleWell :: Double -> Double -> Double -> Double
- stepV :: Double -> Double -> Double
- wall :: Double -> Double -> Double -> Double -> Double
- coherent :: R -> C -> R -> C
- gaussian :: R -> R -> R -> C
- movingGaussian :: R -> R -> R -> R -> C
- stateVectorFromWavefunction :: R -> R -> Int -> (R -> C) -> Vector C
- hamiltonianMatrix :: R -> R -> Int -> R -> R -> (R -> R) -> Matrix C
- expectX :: Vector C -> Vector R -> R
- picture :: (Double, Double) -> [Double] -> Vector C -> Picture
- xRange :: R -> R -> Int -> [R]
- listForm :: (R, R, Vector C) -> ([R], Vector C)
Potentials
Free potential. The potential energy is zero everywhere.
Harmonic potential. This is the potential energy of a linear spring.
Finite square well potential. Potential is zero inside the well, and constant outside the well. Well is centered at the origin.
:: Double | width (for both wells and well separation) |
-> Double | energy height of barrier between wells |
-> Double | position |
-> Double | potential energy |
A double well potential. Potential energy is a quartic function of position that gives two wells, each approximately harmonic at the bottom of the well.
:: Double | energy height of barrier (to the right of origin) |
-> Double | position |
-> Double | potential energy |
A step barrier potential. Potential is zero to left of origin.
:: Double | thickness of wall |
-> Double | energy height of barrier |
-> Double | position of center of barrier |
-> Double | position |
-> Double | potential energy |
A potential barrier with thickness and height.
Initial wavefunctions
Utilities
stateVectorFromWavefunction Source #
:: R | lowest x |
-> R | highest x |
-> Int | dimension of state vector |
-> (R -> C) | wavefunction |
-> Vector C | state vector |
Transform a wavefunction into a state vector.
Produce a gloss Picture
of state vector
for 1D wavefunction.