It's a regrettable reality that there is never time to cover all the interesting scientific stories each month. In the past, we've featured year-end roundups of cool science stories we missed. This year, we're experimenting with a monthly collection. January's list includes papers on using lasers to reveal Peruvian mummy tattoos; the physics of wobbly spears and darts; how a black hole changes over time; and quantum "cat states" for error correction in quantum computers, among other fascinating research.
In , the Event Horizon Telescope announced the first direct image ever taken of a black hole at the center of an elliptical galaxy, Messier 87 M87 , located in the constellation of Virgo some 55 million light-years away.
Co-author Luciano Rezzolla of Goethe University Frankfurt in Germany likened the new analysis to comparing two photographs of Mount Everest, one year apart. While the mountain's basic structure is unlikely to change much in that time, one could observe changes in clouds near the peak and deduce from that properties like wind direction.
Astronomy and Astrophysics, DOI: Humans across the globe have been getting tattoos for more than 5, years, judging by traces found on mummified remains from Europe to Asia and South America. But it can be challenging to decipher details of those tattoos, given how much the ink tends to "bleed" over time, along with the usual bodily decay. Infrared imaging can help, but in an innovative twist, scientists decided to use lasers that make skin glow ever so faintly, revealing many fine hidden details of tattoos found on 1,year-old Peruvian mummies, according to a paper published in the Proceedings of the National Academy of Sciences.
It's the first time the laser-stimulated fluorescence LSF technique has been used on mummified human remains. The skin's fluorescence essentially backlights any tattoos, and after post-processing, the long-exposure photographs showed white skin behind black outlines of the tattoo artβimages so detailed it's possible to measure density differences in the ink and eliminate any bleed effects.
