Convert wavelength in nanometres [nm] to wavelength in millimetres [mm] Online | Free frequency-wavelength Converter

Measuring Light and Electromagnetic Waves

A nanometre (nm) is a unit of length equal to one billionth of a metre (1 nm = 10⁻⁹ m) and is commonly used to express wavelengths of light and other electromagnetic waves. In this context, nanometres provide a convenient scale for describing phenomena that occur at the atomic and molecular level. Visible light, for example, spans wavelengths from about 380 nm (violet) to 750 nm (red). Ultraviolet (UV) light has shorter wavelengths, typically between 10 nm and 400 nm, while infrared (IR) light has longer wavelengths, from about 750 nm to 1,000,000 nm.

Wavelengths in nanometres are critical in fields like optics, photonics, spectroscopy, and nanotechnology. They determine the energy and color of light, how it interacts with matter, and how it can be manipulated in devices like lasers, fiber optics, and solar cells. Shorter wavelengths (in the UV or X-ray range) carry more energy and are used in applications such as medical imaging and semiconductor fabrication. Understanding and working with wavelengths in nanometres allows scientists and engineers to explore and control the behavior of light at extremely small scales—down to the size of atoms and molecules.

Exploring Microwave and Radio Waves

A millimetre (mm) is a unit of length equal to one-thousandth of a metre (1 mm = 10⁻³ m) and is used to describe longer wavelengths in the electromagnetic spectrum, particularly in the microwave and radio wave regions. Wavelengths in the millimetre range typically span from about 1 mm to 10 mm, corresponding to frequencies between 30 GHz and 300 GHz. This portion of the spectrum is known as the millimetre wave band and is essential in technologies such as 5G wireless networks, radar systems, remote sensing, and satellite communications.

Millimetre waves have the advantage of carrying large amounts of data due to their high frequencies, while still being small enough to use compact antennas. They also play a key role in imaging technologies, such as full-body scanners at airports and automotive collision avoidance systems. In astronomy, millimetre wavelengths are used to study cold cosmic objects like molecular clouds and cosmic microwave background radiation.

Using millimetres to measure wavelength allows for more convenient expression of these longer waves, where nanometres or micrometres would result in large, unwieldy numbers. It’s a vital unit for describing electromagnetic waves used in both advanced technologies and scientific research.