An international team of scientists has developed a novel way to experimentally produce plasma ‘fireballs’ on Earth. Black holes and neutron stars are among the densest known objects in the universe. Within and around these extreme astrophysical environments exist plasmas, the fourth fundamental state of matter alongside solids, liquids, and gases. Specifically, the plasmas at … Read more
Australian scientists from the University of Sydney and Australia’s national science agency, CSIRO, have detected what is likely a neutron star spinning slower than any other ever measured. No other radio-emitting neutron star, out of the more than 3,000 discovered so far, has been discovered rotating so slowly. The results are published in Nature Astronomy. Lead author Dr. … Read more
The search for gravitational lenses is a fascinating endeavor in astronomy and cosmology that has revolutionized our understanding of the universe’s structure, composition, and evolution. Gravitational lenses are cosmic phenomena predicted by Einstein’s general theory of relativity, where the gravitational field of massive objects, such as galaxies or galaxy clusters, bends and distorts the paths … Read more
The exploration of planetary systems beyond our solar system has revealed a surprising diversity of worlds, challenging our preconceptions and expanding our understanding of cosmic evolution. From hot Jupiter systems with close-in gas giants to compact multi-planet systems and distant exoplanetary families, the variety of planetary configurations defies simple categorization and underscores the complexity of … Read more
Cosmic rays are high-energy particles originating from outer space that continuously bombard the Earth and other celestial bodies. These particles, which include protons, electrons, and atomic nuclei, carry immense amounts of energy and play a significant role in shaping the universe and influencing various processes on Earth. The study of cosmic rays encompasses a wide … Read more
Pulsars are cosmic lighthouses, beacons of intense radiation and magnetic fields that emit beams of light and other forms of electromagnetic radiation as they rotate rapidly. These exotic objects, often referred to as neutron stars, are the remnants of massive stars that have undergone supernova explosions. Pulsars were first discovered in 1967 by astrophysicist Jocelyn … Read more
Gravitational waves are ripples in the fabric of spacetime caused by the acceleration of massive objects, such as merging black holes or neutron stars. Predicted by Albert Einstein’s theory of general relativity in 1915, these waves were detected for the first time in 2015, marking a revolutionary breakthrough in astrophysics and opening a new window … Read more
Supernovae are some of the most powerful and cataclysmic events in the universe, representing the explosive deaths of massive stars and the birth of new cosmic phenomena. These cosmic explosions release vast amounts of energy and material into space, shaping the evolution of galaxies, enriching the interstellar medium with heavy elements, and producing some of … Read more
Stars are born and die in a continuous cycle, playing a fundamental role in the structure, dynamics, and evolution of the universe. The processes of star formation and stellar death are intricate and fascinating, involving a complex interplay of physical phenomena that span millions to billions of years. Understanding the birth and death of stars … Read more
In a groundbreaking collaboration spearheaded by the Instituto de Astrofísica de Canarias (IAC), astronomers have unraveled the enigmatic origins of blue supergiants, some of the most dazzling and scorching stars in the cosmos. These celestial behemoths have long puzzled scientists, but a recent study, published in The Astrophysical Journal Letters, offers compelling insights into their … Read more
A team of physicists has developed a method to detect gravity waves with such low frequencies that they could unlock the secrets behind the early phases of mergers between supermassive black holes, the heaviest objects in the universe. The method can detect gravitational waves that oscillate just once every thousand years, 100 times slower than … Read more
Neutron star mergers are a treasure trove for new physics signals, with implications for determining the true nature of dark matter, according to research from Washington University in St. Louis. On Aug. 17, 2017, the Laser Interferometer Gravitational-wave Observatory (LIGO) in the United States and Virgo, a detector in Italy, detected gravitational waves from the … Read more
Scientists are getting a more detailed look than ever before at the electrons they use in precision experiments. Nuclear physicists with the U.S. Department of Energy’s Thomas Jefferson National Accelerator Facility have shattered a nearly 30-year-old record for the measurement of parallel spin within an electron beam—or electron beam polarimetry, for short. The achievement sets … Read more
A multinational collaboration of astronomers and astrophysicists recently unveiled groundbreaking evidence surrounding the luminous gamma-ray burst GRB 230307A, which graced the cosmos with its brilliance last year. Contrary to earlier assumptions attributing such bursts to the demise of massive stars, the team’s findings, published in the esteemed journal Nature, indicate that this particular spectacle emanated … Read more