File:QHO-catstate-odd3-animation-color.gif
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QHO-catstate-odd3-animation-color.gif (300 × 200 pixels, file size: 614 KB, MIME type: image/gif, looped, 150 frames, 7.5 s)
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Summary edit
| Description |
English: Animation of the quantum wave function of an odd Schrödinger cat state of α=3 in a Quantum harmonic oscillator. The probability distribution is drawn along the ordinate, while the phase is encoded by color. The two coherent contributions interfere in the center which is characteristic for a cat-state. |
| Date | |
| Source |
Own work This plot was created with Matplotlib. |
| Author | Geek3 |
| Other versions | QHO-catstate-odd3-animation.gif |
Source Code edit
The plot was generated with Matplotlib.
| Python Matplotlib source code |
|---|
#!/usr/bin/python
# -*- coding: utf8 -*-
from math import *
import matplotlib.pyplot as plt
from matplotlib import animation, colors, colorbar
import numpy as np
import colorsys
from scipy.interpolate import interp1d
plt.rc('path', snap=False)
plt.rc('mathtext', default='regular')
# image settings
fname = 'QHO-catstate-odd3-animation-color'
width, height = 300, 200
ml, mr, mt, mb, mh, mc = 35, 19, 22, 45, 12, 6
x0, x1 = -6.5, 6.5
y0, y1 = 0.0, 1.2
nframes = 150
fps = 20
# physics settings
alpha0 = 3.0
omega = 2*pi
def color(phase):
phase1 = ((phase / (2*pi)) % 1 + 1) % 1
hue = (interp1d([0, 1./3, 1.2/3, 0.5, 1], # spread yellow a bit
[0, 1./3, 1.3/3, 0.5, 1])(phase1) + 2./3.) % 1
light = interp1d([0, 1, 2, 3, 4, 5, 6], # adjust lightness
[0.64, 0.5, 0.56, 0.48, 0.75, 0.57, 0.64])(6 * hue)
hls = (hue, light, 1.0) # maximum saturation
rgb = colorsys.hls_to_rgb(*hls)
return rgb
def coherent(alpha, x, omega, t, l=1.0):
# Definition of coherent states
# https://en.wikipedia.org/wiki/Coherent_states
psi = (pi*l**2)**-0.25 * np.exp(
-0.5/l**2 * (x - sqrt(2)*l * alpha.real)**2
+ 1j*sqrt(2)/l * alpha.imag * x
+ 0.5j * (alpha0**2*sin(2*omega*t) - omega*t))
return psi
def animate(nframe):
print str(nframe) + ' ',
t = float(nframe) / nframes * 0.5 # animation repeats after t=0.5
alpha = e ** (-1j * omega * t) * alpha0
ax.cla()
ax.grid(True)
ax.axis((x0, x1, y0, y1))
x = np.linspace(x0, x1, int(ceil(1+w_px)))
x2 = x - px_w/2.
# Definition of cat states in terms of coherent states:
# https://en.wikipedia.org/wiki/Cat_state
psi = coherent(alpha, x, omega, t) - coherent(-alpha, x, omega, t)
psi /= sqrt(2 * (1 - exp(-2*alpha0**2)))
# Let's cheat a bit: at a phase phi(t)*const(x) !
# This will reduce the period from T=2*(2pi/omega) to T=1.0*(2pi/omega)
# and allow fewer frames and less file size for repetition.
# For big alpha the change is hardly visible
psi *= np.exp(-0.5j * omega * t)
y = np.abs(psi)**2
psi2 = coherent(alpha, x2, omega, t) - coherent(-alpha, x2, omega, t)
psi2 *= np.exp(-0.5j * omega * t)
phi = np.angle(psi2)
# plot color filling
for x_, phi_, y_ in zip(x, phi, y):
ax.plot([x_, x_], [0, y_], color=color(phi_), lw=2*0.72)
ax.plot(x, y, lw=2, color='black')
ax.set_yticks(ax.get_yticks()[:-1])
# create figure and axes
plt.close('all')
fig, ax = plt.subplots(1, figsize=(width/100., height/100.))
bounds = [float(ml)/width, float(mb)/height,
1.0 - float(mr+mc+mh)/width, 1.0 - float(mt)/height]
fig.subplots_adjust(left=bounds[0], bottom=bounds[1],
right=bounds[2], top=bounds[3], hspace=0)
w_px = width - (ml+mr+mh+mc) # plot width in pixels
px_w = float(x1 - x0) / w_px # width of one pixel in plot units
# axes labels
fig.text(0.5 + 0.5 * float(ml-mh-mc-mr)/width, 4./height,
r'$x\ \ [(\hbar/(m\omega))^{1/2}]$', ha='center')
fig.text(5./width, 1.0, '$|\psi|^2$', va='top')
# colorbar for phase
cax = fig.add_axes([1.0 - float(mr+mc)/width, float(mb)/height,
float(mc)/width, 1.0 - float(mb+mt)/height])
cax.yaxis.set_tick_params(length=2)
cmap = colors.ListedColormap([color(phase) for phase in
np.linspace(0, 2*pi, 384, endpoint=False)])
norm = colors.Normalize(0, 2*pi)
cbar = colorbar.ColorbarBase(cax, cmap=cmap, norm=norm,
orientation='vertical', ticks=np.linspace(0, 2*pi, 3))
cax.set_yticklabels(['$0$', r'$\pi$', r'$2\pi$'], rotation=90)
fig.text(1.0 - 10./width, 1.0, '$arg(\psi)$', ha='right', va='top')
plt.sca(ax)
# start animation
anim = animation.FuncAnimation(fig, animate, frames=nframes)
anim.save(fname + '_.gif', writer='imagemagick', fps=fps)
import os
# compress with gifsicle
commons = 'https://commons.wikimedia.org/wiki/File:'
cmd = 'gifsicle -O3 -k256 --careful --comment="' + commons + fname + '.gif"'
cmd += ' < ' + fname + '_.gif > ' + fname + '.gif'
if os.system(cmd) == 0:
os.remove(fname + '_.gif')
else:
print 'warning: gifsicle not found!'
os.remove(fname + '.gif')
os.rename(fname + '_.gif', fname + '.gif')
|
Licensing edit
I, the copyright holder of this work, hereby publish it under the following licenses:
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Permission is granted to copy, distribute and/or modify this document under the terms of the GNU Free Documentation License, Version 1.2 or any later version published by the Free Software Foundation; with no Invariant Sections, no Front-Cover Texts, and no Back-Cover Texts. A copy of the license is included in the section entitled GNU Free Documentation License. |
This file is licensed under the Creative Commons Attribution 3.0 Unported license.
- You are free:
- to share – to copy, distribute and transmit the work
- to remix – to adapt the work
- Under the following conditions:
- attribution – You must give appropriate credit, provide a link to the license, and indicate if changes were made. You may do so in any reasonable manner, but not in any way that suggests the licensor endorses you or your use.
You may select the license of your choice.
File history
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| Date/Time | Thumbnail | Dimensions | User | Comment | |
|---|---|---|---|---|---|
| current | 13:18, 4 October 2015 | | 300 × 200 (614 KB) | Geek3 (talk | contribs) | legend added |
| 23:40, 20 September 2015 |  | 300 × 200 (593 KB) | Geek3 (talk | contribs) | even -> odd | |
| 23:39, 20 September 2015 |  | 300 × 200 (572 KB) | Geek3 (talk | contribs) | phase correction | |
| 21:49, 20 September 2015 |  | 300 × 200 (593 KB) | Geek3 (talk | contribs) | {{Information |Description ={{en|1=Animation of the quantum wave function of an odd Schrödinger cat state of α=3 in a Quantum harmonic oscillator. The [[:en:Probability di... |
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