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Cosmic Scales of Electromagnetic Waves

A terametre (Tm) is equal to 1 trillion metres (10¹² m), an enormous unit used to describe wavelengths on an interplanetary or even interstellar scale. Such colossal wavelengths correspond to extremely low frequencies in the picohertz to femtohertz range and are primarily relevant in astrophysics, cosmology, and gravitational wave studies. At this scale, electromagnetic or gravitational waves can span distances comparable to the size of the solar system or beyond.

For example, a frequency of 1 femtohertz (10⁻¹⁵ Hz) corresponds to a wavelength of approximately 300 terametres, or 300 billion kilometres — about twice the distance from the Sun to Pluto. These wavelengths are far beyond practical terrestrial communication but are important for understanding phenomena like primordial gravitational waves, cosmic microwave background fluctuations, and large-scale cosmic structures.

Using terametres to express wavelength helps scientists conceptualize and study the vast, slow oscillations that shape the universe over billions of years. These extreme wavelengths offer insight into the very fabric of space-time, the origins of the universe, and processes occurring on the grandest cosmic scales.

The Frequency of Moderate-Speed Oscillations

The decihertz (dHz) is a unit of frequency equal to 0.1 hertz (10⁻¹ Hz), meaning one cycle occurs every 10 seconds. This frequency range is useful for studying moderate-speed oscillations in various fields such as geophysics, astrophysics, and engineering.

In geophysics, decihertz frequencies are relevant in the analysis of certain seismic waves and ground vibrations caused by natural events like earthquakes or volcanic activity. These waves help scientists understand the Earth’s interior and predict the effects of seismic events on structures and populations.

In astrophysics, decihertz frequencies are significant for observing gravitational waves generated by binary star systems and other massive celestial objects. These waves fall within a frequency range targeted by upcoming space-based gravitational wave detectors, such as the Laser Interferometer Space Antenna (LISA), which aims to study sources inaccessible to ground-based observatories.

In engineering, vibrations in the decihertz range can influence the behavior of mechanical systems and large infrastructures, such as tall buildings or bridges, under environmental loads like wind or traffic.

Decihertz frequencies fill the gap between slower oscillations and those in the audio range, making them crucial for understanding a wide variety of natural and man-made phenomena occurring on timescales of seconds to minutes.