Turn geographic coordinates into geomagnetic reference values quickly. Choose pole presets or enter your own. Ideal for aurora tracking, radio paths, and research workflows.
| Geo Lat (°) | Geo Lon (°) | Alt (km) | Pole Lat (°) | Pole Lon (°) | Geomag Lat (°) | Geomag Lon (°) |
|---|---|---|---|---|---|---|
| 0.0 | 0.0 | 0 | 80.50 | -72.60 | ~asin(r·m) | frame-based |
| 34.00 | -118.25 | 0 | 80.50 | -72.60 | computed | computed |
| 51.50 | -0.12 | 0 | 80.50 | -72.60 | computed | computed |
| 69.65 | 18.96 | 0 | 80.50 | -72.60 | computed | computed |
This calculator uses the Centered Dipole (CD) approximation. The dipole axis is set by the chosen dipole north pole latitude φp and longitude λp.
Geomagnetic latitude reorganizes observations around the main-field dipole axis. Auroral activity, ionospheric currents, and many space-weather maps align better in magnetic coordinates than in geographic coordinates. This tool converts a site into that frame for fast screening and reporting.
The centered dipole model treats Earth's field as a dipole located at the planet center. The dipole axis is defined by a dipole north pole latitude and longitude. Geomagnetic latitude is the angle between the location direction and that axis, computed with a dot product of unit vectors.
Inputs are geodetic latitude, longitude, and altitude. The calculator converts them to Earth-centered, Earth-fixed coordinates using WGS84 parameters (a = 6,378,137 m, f = 1/298.257223563). Normalization produces a stable unit direction vector, and dot products are clamped to protect inverse trigonometry.
Positive values indicate the hemisphere containing the selected dipole pole. Values near 0 degrees correspond to the magnetic equator, while higher magnitudes indicate greater magnetic distance from the equator. Aurora discussions often reference geomagnetic latitudes near 55 to 70 degrees in storms.
Longitude is less standardized than latitude. Here it is defined in a dipole-fixed frame using an orthonormal basis built from the dipole axis and Earth's rotation axis. The result is consistent for plots and exports inside this calculator. When comparing tools, verify the reference meridian.
With altitude, the calculator estimates L-shell as L = (r/Re)/cos^2(Λ), where r is radial distance and Re is mean Earth radius (6,371,000 m). In a pure dipole, L approximates the equatorial crossing distance of a field line in Earth radii. It is a convenient label, not a measured quantity.
When L is at least 1, invariant latitude is derived from L and provides a compact footprint measure. It is commonly used to compare particle access and drift shells under dipole-like assumptions. Use it as a consistent index across locations for quick comparisons and dashboards.
Real geomagnetic coordinates depend on time and non-dipole field terms. For research-grade transforms, use AACGM or quasi-dipole coordinates driven by IGRF. This centered dipole tool remains valuable for rapid checks, teaching, and lightweight pipelines with CSV and PDF outputs.
No. Geomagnetic latitude is a coordinate relative to the dipole axis. Inclination is the local field direction angle and depends on regional field structure.
Many converters use full IGRF and AACGM methods. This tool uses a centered dipole model, so differences grow where non-dipole terms are significant.
Use pole coordinates consistent with your chosen reference model and epoch. For precise work, obtain the centered-dipole pole from an IGRF source for that year.
Latitude changes slightly because the position vector changes with altitude. Altitude mainly affects the L-shell estimate, which depends on radial distance.
In a dipole field, L labels the field line by its equatorial crossing distance in Earth radii. It is an approximation and not a measured property.
It can help map your location to geomagnetic latitude, which correlates with auroral visibility. Actual aurora depends on geomagnetic activity and local conditions.
State that you used a centered dipole geomagnetic transform with the specified pole coordinates. Include the input latitude, longitude, altitude, and the computed outputs.
Important Note: All the Calculators listed in this site are for educational purpose only and we do not guarentee the accuracy of results. Please do consult with other sources as well.