Convert exahertz [EHz] to wavelength in gigametres Online | Free frequency-wavelength Converter

The Realm of Ultra-High Frequency Electromagnetic Waves

The exahertz (EHz) is a unit of frequency equal to 1 quintillion hertz (10¹⁸ Hz), representing one quintillion cycles per second. This extremely high frequency lies deep within the gamma-ray region of the electromagnetic spectrum, associated with some of the most energetic processes in the universe.

Exahertz frequencies correspond to electromagnetic waves with extremely short wavelengths—on the order of picometers or smaller—which are produced by nuclear reactions, cosmic rays, and other high-energy astrophysical phenomena. Gamma rays at these frequencies are emitted by events like supernovae, neutron star collisions, and active galactic nuclei.

Due to their immense energy, exahertz waves can penetrate matter deeply and are used in applications such as cancer radiation therapy and high-energy physics experiments. However, generating and detecting such frequencies on Earth remains highly challenging, requiring advanced particle accelerators and specialized detectors.

Studying exahertz frequencies helps scientists explore fundamental physics, including particle interactions, quantum mechanics, and the conditions of the early universe. These investigations provide insights into the nature of matter, energy, and the forces governing the cosmos.

The Scale of Extremely Low Frequency and Astrophysical Waves

A gigametre (Gm) is equal to 1,000,000,000 metres (10⁹ m) and is used to describe extraordinarily long wavelengths found primarily in the extremely low frequency (ELF) band and in astrophysical phenomena. These wavelengths correspond to frequencies in the millihertz to microhertz range, far below typical human-made radio communications. Gigametre-scale wavelengths are associated with very slow oscillations in space plasmas, planetary magnetospheres, and cosmic radio waves.

For example, a frequency of 1 microhertz (10⁻⁶ Hz) corresponds to a wavelength of about 300 million kilometres (300 Gm), which is roughly twice the distance from the Earth to the Sun. Such enormous wavelengths are significant in studying solar-terrestrial interactions, long-period gravitational waves, and other phenomena in astrophysics and cosmology.

Although gigametre wavelengths are not practical for terrestrial communications, they help scientists understand the large-scale electromagnetic environment of the solar system and beyond. Using the gigametre unit allows researchers to quantify these immense scales and analyze signals and waves that influence planetary environments, space weather, and the interstellar medium.