Combine field emission SEM (FE-SEM) technology with advanced analytics. Profit from proven Gemini electron optics. Choose from a variety of detector options: you can image particles, surfaces, and ...

Pomegranate peel extract facilitates the green synthesis of silver nanoparticles, offering a sustainable alternative with ...

Due to the inherent low atomic number of organic materials, their ability to absorb high-energy rays is relatively weak.

This study provides valuable insights into magnetar radio emission mechanisms and offers guidance for future radio surveys of high-magnetic-field neutron stars.

We explored its potential X-ray emission and conducted time-domain spectroscopic observations of this target. We report that ZTF J0112+5827 is a newly identified polar," the researchers wrote.

Magnetars are neutron stars characterized by some of the most powerful magnetic fields in the Universe, as well as their intense X-ray and gamma-ray emissions and outbursts. An international team ...

New infrared observations of Sagittarius A* uncover flaring activity in its accretion disk, advancing knowledge of black ...

A cosmic enigma, ASKAP J1839-0756, a slow-spinning neutron star discovered using the ASKAP radio telescope, is challenging ...

A white dwarf and a red dwarf star have been discovered closely orbiting each other emitting radio pulses every two hours. Their findings means we know it isn't just neutron stars that emit such ...

In the upcoming year of 2025, we anticipate that the global economy will face a series of complex and volatile challenges.

Astronomers have finally traced mysterious radio pulses in the Milky Way to a unique cosmic duo—a red dwarf and a white dwarf ...

The Crab Nebula is the remnant of a supernova which was observed almost 1000 years ago. Although it corresponds to one of the ...