+120 votes
in Waves physics by
edited by

Your answer

Your name to display (optional):
Privacy: Your email address will only be used for sending these notifications.
+92 votes
by

Ultra low frequency (ULF) waves refer to electromagnetic waves or oscillations with frequencies typically ranging from a few hertz (Hz) to a few tens of hertz. These waves have wavelengths on the order of thousands of kilometers, making them extremely long compared to other electromagnetic waves.

ULF waves can be generated by various natural phenomena, such as lightning strikes, geomagnetic storms, and interactions between the solar wind and the Earth's magnetosphere. Additionally, ULF waves can also be artificially produced through specific technologies, such as electromagnetic wave generators.

When it comes to the search for dark matter particles, ULF waves can be utilized in certain experimental techniques. Dark matter is a hypothetical form of matter that does not interact with electromagnetic radiation and thus cannot be directly observed. However, some theories propose that dark matter particles might have weak interactions with ordinary matter or possess small electrical charges.

In experiments seeking to detect dark matter particles, ULF waves can be employed in a technique called "axion-to-photon conversion." Axions are a class of hypothetical particles that are one of the candidates for dark matter. If axions exist and have specific properties, they can convert into photons (particles of light) when exposed to strong magnetic fields. This conversion process can be facilitated by utilizing resonant cavities that generate ULF waves.

The resonant cavities, often made of superconducting materials, create a strong magnetic field and generate ULF waves at frequencies matching the axion mass. If dark matter axions are present and interact with the magnetic field in the cavity, they could convert into detectable photons through the ULF wave interactions. This technique allows researchers to indirectly search for the presence of dark matter particles by looking for the converted photons.

Experiments such as the Axion Dark Matter Experiment (ADMX) employ ULF waves and resonant cavities to search for axions and other potential dark matter particles. These experiments aim to identify the elusive nature of dark matter and provide insights into its composition and properties.

Welcome to Physicsgurus Q&A, where you can ask questions and receive answers from other members of the community.
...