I made it to python code, and tried to verify with this website http://wdc.kugi.kyoto-u.ac.jp/igrf/gggm/index.html . I found that

- The magnetic pole is that for Year 1995.
- Even if I set the above calculate to use value for 1995, i quite don't get correct match.

I used value for Kyoto, japan (35N, 135.45W). The webpage calculated (25.18, -155.80). I got (25.33580652, -155.82724011). So I am not completely sure if this can be of real use...

```
import numpy as np
from numpy import pi, cos, sin, arctan2, sqrt, dot
def geo2mag(incoord):
"""geographic coordinate to magnetic coordinate:
incoord is numpy array of shape (2,*)
array([[glat0,glat1,glat2,...],
[glon0,glon1,glon2,...])
where glat, glon are geographic latitude and longitude
(or if you have only one point it is [[glat,glon]])
returns
array([mlat0,mlat1,...],
[mlon0,mlon1,...]])
"""
# SOME 'constants'...
lon = 288.59 # or 71.41W
lat = 79.3
r = 1.0
# convert first to radians
lon, lat = [x*pi/180 for x in lon,lat]
glat = incoord[0] * pi / 180.0
glon = incoord[1] * pi / 180.0
galt = glat * 0. + r
coord = np.vstack([glat,glon,galt])
# convert to rectangular coordinates
x = coord[2]*cos(coord[0])*cos(coord[1])
y = coord[2]*cos(coord[0])*sin(coord[1])
z = coord[2]*sin(coord[0])
xyz = np.vstack((x,y,z))
# computer 1st rotation matrix:
geo2maglon = np.zeros((3,3), dtype='float64')
geo2maglon[0,0] = cos(lon)
geo2maglon[0,1] = sin(lon)
geo2maglon[1,0] = -sin(lon)
geo2maglon[1,1] = cos(lon)
geo2maglon[2,2] = 1.
out = dot(geo2maglon , xyz)
tomaglat = np.zeros((3,3), dtype='float64')
tomaglat[0,0] = cos(.5*pi-lat)
tomaglat[0,2] = -sin(.5*pi-lat)
tomaglat[2,0] = sin(.5*pi-lat)
tomaglat[2,2] = cos(.5*pi-lat)
tomaglat[1,1] = 1.
out = dot(tomaglat , out)
mlat = arctan2(out[2],
sqrt(out[0]*out[0] + out[1]*out[1]))
mlat = mlat * 180 / pi
mlon = arctan2(out[1], out[0])
mlon = mlon * 180 / pi
outcoord = np.vstack((mlat, mlon))
return outcoord
if __name__ == '__main__':
mag = geo2mag(np.array([[79.3,288.59]]).T).T
print mag # should be [90,0]
mag = geo2mag(np.array([[90,0]]).T).T
print mag # should be [79.3,*]
mag = geo2mag(np.array([
[79.3,288.59],
[90,0]
]).T).T
print mag # should be [ [90,0]. [79.3,*] ]
# kyoto, japan
mag = geo2mag(np.array([[35.,135.45]]).T).T
print mag # should be [25.18, -155.80], according to
# this site using value for 1995
# http://wdc.kugi.kyoto-u.ac.jp/igrf/gggm/index.html
```