62 articles from FRIDAY 3.7.2020

First evidence of snake-like venom glands found in amphibians

Caecilians are limbless amphibians that can be easily mistaken for snakes. Though caecilians are only distantly related to their reptilian cousins, researchers describe specialized glands found along the teeth of the ringed caecilian (Siphonops annulatus), which have the same biological origin and possibly similar function to the venom glands of snakes. As such, caecilians may represent the oldest...

Scientific 'red flag' reveals new clues about our galaxy

Figuring out how much energy permeates the center of the Milky Way—a discovery reported in the July 3 edition of the journal Science Advances—could yield new clues to the fundamental source of our galaxy's power, said L. Matthew Haffner of Embry-Riddle Aeronautical University.

UK buys £400m stake in bankrupt satellite rival to EU Galileo system

Investment with India made in US firm OneWeb after Brexit locks UK out of Europe’s satellite navigation systemThe UK government has pledged to invest $500m (£400m) in bankrupt satellite company OneWeb, giving it a stake in a business that provides broadband from space.The government, which has proven so far unwilling to take stakes in major British companies hit by the coronavirus pandemic,...

'Fang'tastic: Biologists report snake-like dental glands in amphibians

Utah State University biologist Edmund 'Butch' Brodie, Jr. and colleagues from São Paulo's Butantan Institute report the first known evidence of oral venom glands in amphibians. Their research, supported by the Brazilian National Council for Scientific and Technological Development, appears in the July 3, 2020, issue of iScience.

Toward super-fast motion of vortices in superconductors

An international team of scientists from Austria, Germany, and Ukraine has found a new superconducting system in which magnetic flux quanta can move at velocities of 10 to 15 km/s. This opens access to investigations of the rich physics of non-equilibrium collective systems and renders a direct-write Nb-C superconductor as a candidate material for single-photon detectors. The results are published...