A ghostly glow was seen emanating from living things in 2025

This year, researchers made a fascinating discovery of an eerie glow emitted by mice that vanishes upon death, sparking intrigue in the realm of biophotons. Biophotons are extremely weak light particles produced by cellular structures such as mitochondria, which play a vital role in energy production. Despite the challenges in isolating and confirming these elusive signals, scientists have been dedicated to unraveling the mysteries of biophotons.

Past studies on biophotons have often concentrated on specific body parts due to the complexities involved in their detection. However, a breakthrough occurred when Daniel Oblak and his team at the University of Calgary successfully observed biophotons emanating from the entire bodies of four hairless mice, with the light fading rapidly post-mortem. In addition, they also identified biophotons being emitted from the leaves of an umbrella tree (Heptapleurum arboricola), further solidifying the existence of these minuscule light particles.

Following the publication of this groundbreaking research, interest in biophotons surged, with inquiries pouring in from various media outlets. The resemblance of biophotons to the concept of a psychic aura intrigued many, drawing parallels to the supposed energy fields surrounding living beings. Oblak mentioned an individual from Argentina who urged further investigation into the luminous glow he perceived while healing others.

Despite the mystical associations, the scientific validity of biophotons remains undisputed, prompting collaborations between Oblak’s team and fellow researchers. One proposed collaboration involves exploring biophoton production mechanisms in plants, potentially revolutionizing agricultural practices. By studying how biophotons correlate with seed germination, farmers could assess the viability of seeds without physical contact, offering a new approach to enhancing crop yields.

As the realm of biophotons continues to captivate the scientific community, the potential implications of this research extend beyond the realms of biology, paving the way for innovative applications in various fields.