Astronomers have identified an unusual cosmic object within the active galaxy NGC 4945, located approximately 11 million light-years from Earth. This object, named 'Punctum' by the research team led by Elena Shablovinskaia of the Institute of Astrophysical Studies at Diego Portales University in Chile, was detected using the Atacama Large Millimeter/submillimeter Array (ALMA). Punctum is characterized by its extraordinary luminosity, being 10,000 to 100,000 times brighter than typical magnetars and about 100 times more luminous than microquasars. Its intensity is comparable only to the Crab Nebula among star-related sources in our galaxy.
The discovery, published in the journal Astronomy & Astrophysics, highlights ALMA's capability in revealing previously undetected phenomena. Punctum is exclusively visible in millimeter radio wavelengths, remaining undetectable in visible or X-ray light. This suggests the presence of a highly structured magnetic field, likely emitting synchrotron radiation. While hypotheses such as magnetars or supernova remnants have been considered, they do not fully explain Punctum's observed characteristics, indicating it may represent a new class of astrophysical object. Its highly polarized light, around 50%, further supports the notion of an organized magnetic field, a trait common in compact sources like pulsars and magnetars. Astronomers plan further observations with ALMA and the James Webb Space Telescope (JWST) to better understand Punctum's nature. If JWST detects the object in infrared, its superior resolution could provide crucial clues. The discovery underscores the complexity and diversity of cosmic objects and the importance of ongoing research in understanding the universe.