This unprecedented sensitivity opens the door to breakthroughs in fields like drug development, where understanding molecular interactions at the atomic level is critical. Since the 1950s, scientists ...

In a significant scientific breakthrough, engineers at Penn Engineering have developed a refined form of nuclear quadrupolar ...

Since the 1950s, scientists have used radio waves to uncover the molecular ... breakthroughs in fields like drug development, where understanding molecular interactions at the atomic level ...

Penn Engineering's quantum sensors enable groundbreaking NQR spectroscopy, revealing minute molecular differences critical ...

Most pulsars, the faster-spinning cousins of ASKAP J1839-0756, are like one-sided flashlights. The axis they spin around is ...

Fast radio bursts (FRBs) are notoriously difficult to study. They are flashes of radio light that can outshine a galaxy but ...

Special radio telescopes regularly observe fast radio bursts from the depths of the cosmos, far outside the Milky Way. Astronomers believe that neutron stars are the source of these bursts. Neutron ...

Fast radio bursts (FRBs) are mysterious pulses of energy that can last from a fraction of a millisecond to about three ...

Discover how scientists traced a mysterious radio signal from an ultra-dense neutron star 200 million light-years away, ...