wmm packageThe purpose of this package is to
make accessible the magnetic field vector components from the World
Magnetic Model (WMM). The supported date ranges for wmm
run from 2000-01-01 to 2024-12-31. The magnetic field calculations
across this time range agree with the official WMM test values to the
precision provided by the authors. I will update this package for each
new WMM version. For those that prefer a non-R solution, the authors of
WMM provide free software to calculate magnetic field on the official
website.
Install from CRAN:
Or, install from GitHub:
In v1.1.2, the only exported function is
GetMagneticFieldWMM, which returns the orthogonal vector
components of the main magnetic field (in nT) and secular variation
field (in nT/yr) as predicted by WMM. The magnetic field elements,
h, f, i, and d (as well as their
secular variation) are returned as well.
Example usage:
Calculate expected magnetic field components at a benchmark location, mid 2022. Using the default value for WMM version, this will use the WMM2020 coefficients.
wmm::GetMagneticFieldWMM(
lon = 240,
lat = -80,
height = 1e5,
time = 2022.5
)
#> $x
#> [1] 5814.966
#>
#> $y
#> [1] 14802.97
#>
#> $z
#> [1] -49755.31
#>
#> $xDot
#> [1] 28.0382
#>
#> $yDot
#> [1] 1.397062
#>
#> $zDot
#> [1] 85.63095
#>
#> $h
#> [1] 15904.14
#>
#> $f
#> [1] 52235.36
#>
#> $i
#> [1] -72.27367
#>
#> $d
#> [1] 68.55389
#>
#> $hDot
#> [1] 11.55182
#>
#> $fDot
#> [1] -78.04815
#>
#> $iDot
#> [1] 0.04066726
#>
#> $dDot
#> [1] -0.09217566Repeat the last calculation but apply it to 2017.5 and use the older coefficients from WMM2015 that were replaced by WMM2015v2.
Note: The WMM is intended to be predictive. By using an older
set of coefficients, the returned values will reflect the older
predictions. If users need a good model of the Earth’s magnetic field
prior to the current WMM, please see the latest IGRF model,
which is retroactively updated. The wmmVersion feature is
intended for reproducibility purposes only.
wmm::GetMagneticFieldWMM(
lon = 240,
lat = -80,
height = 1e5,
time = 2017.5,
wmmVersion = 'WMM2015'
)
#> $x
#> [1] 5683.518
#>
#> $y
#> [1] 14808.85
#>
#> $z
#> [1] -50163.01
#>
#> $xDot
#> [1] 28.16496
#>
#> $yDot
#> [1] 6.941152
#>
#> $zDot
#> [1] 86.24356
#>
#> $h
#> [1] 15862.04
#>
#> $f
#> [1] 52611.14
#>
#> $i
#> [1] -72.45253
#>
#> $d
#> [1] 69.0036
#>
#> $hDot
#> [1] 16.57205
#>
#> $fDot
#> [1] -77.23403
#>
#> $iDot
#> [1] 0.04552524
#>
#> $dDot
#> [1] -0.08599694Chulliat, A., W. Brown, P. Alken, C. Beggan, M. Nair, G. Cox, A. Woods, S. Macmillan, B. Meyer and M. Paniccia, The US/UK World Magnetic Model for 2020-2025: Technical Report, National Centers for Environmental Information, NOAA, doi: 10.25923/ytk1-yx35, 2020.
Chulliat, A., W. Brown, P. Alken, S. Macmillan, M. Nair, C. Beggan, A. Woods, B. Hamilton, B. Meyer and R. Redmon, 2019, Out-of-Cycle Update of the US/UK World Magnetic Model for 2015-2020: Technical Note, National Centers for Environmental Information, NOAA. doi: 10.25921/xhr3-0t19
Chulliat, A., S. Macmillan, P. Alken, C. Beggan, M. Nair, B. Hamilton, A. Woods, V. Ridley, S. Maus and A. Thomson, 2015, The US/UK World Magnetic Model for 2015-2020: Technical Report, National Geophysical Data Center, NOAA. doi: 10.7289/V5TB14V7
Maus, S., S. Macmillan, S. McLean, B. Hamilton, A. Thomson, M. Nair, and C. Rollins, 2010, The US/UK World Magnetic Model for 2010-2015, NOAA Technical Report NESDIS/NGDC.
McLean, S., S. Macmillan, S. Maus, V. Lesur, A. Thomson, and D. Dater, December 2004, The US/UK World Magnetic Model for 2005-2010, NOAA Technical Report NESDIS/NGDC-1.
Macmillian, S. and J. M. Quinn, 2000. “The Derivation of the World Magnetic Model 2000,” British Geological Survey Technical Report WM/00/17R.