For these factors, axions have actually ended up being one of the preferred candidate particles for dark matter.Axions would just connect with other particles weakly. Some goal to convert light into axions, for circumstances, and then axions back into light on the other side of a wall.At present, the most delicate method targets the halo of dark matter permeating the galaxy (and as a result, Earth) with a gadget called a haloscope. It is a conductive cavity immersed in a strong magnetic field; the former captures the dark matter surrounding us (assuming it is axions), while the latter induces the conversion into light. The outcome is an electro-magnetic signal appearing inside the cavity, oscillating with a characteristic frequency depending on the axion mass.The system works like a getting radio. If the frequencies of the cavity and the axion do not match, it is simply like tuning a radio on the wrong channel.The powerful magnet is moved to the lab at Yale.
For these factors, axions have ended up being one of the preferred prospect particles for dark matter.Axions would only engage with other particles weakly. Some goal to convert light into axions, for instance, and then axions back into light on the other side of a wall.At present, the most sensitive approach targets the halo of dark matter permeating the galaxy (and as a result, Earth) with a gadget called a haloscope. It is a conductive cavity immersed in a strong magnetic field; the previous records the dark matter surrounding us (presuming it is axions), while the latter induces the conversion into light.
