Cosmology is the scientific study of the large-scale properties of the universe as a whole. It aims to understand the origin, evolution, structure, and eventual fate of the universe. By examining cosmic phenomena such as the Big Bang, cosmic microwave background radiation, dark matter, and dark energy, cosmologists develop theories and models that explain how … Read more
The quest for a Theory of Everything (TOE) is one of the most ambitious scientific endeavors, aiming to unify all fundamental forces and particles in a single, all-encompassing theoretical framework. This grand vision seeks to bridge the gap between the two main pillars of modern physics: General Relativity, which describes the macroscopic world of gravity … Read more
Joint research led by Michiko Fujii of the University of Tokyo has unveiled a possible formation mechanism for intermediate-mass black holes (IMBHs) in globular clusters. These clusters, which can contain tens of thousands to millions of tightly packed stars, have long been suspected to host IMBHs, but direct theoretical evidence has been lacking until now. … Read more
An international team of astronomers has made a groundbreaking discovery with the identification of the two earliest and most distant galaxies ever observed, dating back to just 300 million years after the Big Bang. This significant milestone in the study of the early universe was achieved using NASA’s James Webb Space Telescope (JWST). The discoveries … Read more
Researchers at the Research Center for the Early Universe (RESCEU) and the Kavli Institute for the Physics and Mathematics of the Universe (Kavli IPMU, WPI) at the University of Tokyo have recently leveraged quantum field theory—traditionally applied to minute, subatomic phenomena—to explore the early universe. Their findings suggest that miniature black holes, specifically primordial black … Read more
MIT astronomers have observed the elusive starlight surrounding some of the earliest quasars in the universe. The distant signals, which trace back more than 13 billion years to the universe’s infancy, are revealing clues to how the very first black holes and galaxies evolved. Quasars are the blazing centers of active galaxies, which host an … Read more
The universe’s early galaxies were less chaotic and developed much faster than previously thought, according to new research looking back more than ten billion years in time. An international team of astronomers led by Durham University, UK, has used the James Webb Space Telescope (JWST) to find evidence of bar formation when the universe was … Read more
The origin and evolution of the universe have fascinated humanity for millennia. Modern scientific theories, such as the Big Bang theory, provide a framework for understanding these cosmic processes. The universe began as an unimaginably dense and hot singularity around 13.8 billion years ago, expanding rapidly and cooling over time. Through cosmic inflation, galaxies, stars, … Read more
Quasars, short for “quasi-stellar radio sources,” are among the most enigmatic and fascinating objects in the cosmos. They are incredibly bright and energetic, emitting radiation across the entire electromagnetic spectrum, from radio waves to X-rays and gamma rays. Quasars are powered by the accretion of material onto supermassive black holes at the centers of galaxies, … Read more
The dance of galaxies in the cosmic web is a mesmerizing spectacle of cosmic structure and evolution, revealing the intricate interplay of gravity, dark matter, and cosmic forces shaping the large-scale distribution of galaxies in the universe. The cosmic web is a vast network of filaments, voids, and clusters that connect galaxies across cosmic distances, … 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
Nebulae are some of the most captivating and visually stunning objects in the cosmos, offering a window into the dynamic and complex processes of stellar birth, evolution, and death. These luminous clouds of gas and dust come in a variety of shapes, sizes, and colors, each with its own unique characteristics and origins. Nebulae are … Read more
Dark matter is one of the most mysterious and elusive substances in the universe. Despite making up approximately 27% of the total mass-energy content of the cosmos, its nature remains largely unknown. Scientists have been working tirelessly for decades to unravel the secrets of dark matter, aiming to understand its properties, distribution, and role in … Read more
Imagine measuring the ever-expanding universe with a ruler that constantly stretches. That’s the challenge cosmologists face when determining the Hubble constant (H0), a value reflecting the universe’s expansion rate and ultimately its age and size. Conflicting H0 measurements derived from various objects highlight the need for better cosmic distance measurement tools. Enter red giant stars, … Read more
The prevailing theory of the universe’s composition, which includes dark matter as a major component, is facing a challenge from a new University of Ottawa study. Published in The Astrophysical Journal, the research suggests that the cosmos might not need dark matter at all. Traditionally, dark matter has been the invisible force used to explain … Read more
Astronomers are currently enjoying a fruitful period of discovery, investigating the many mysteries of the early universe. The successful launch of the James Webb Space Telescope (JWST), a successor to NASA’s Hubble Space Telescope, has pushed the limit of what we can see. Observations are now entering the first 500 million years after the Big … Read more
The rate at which the universe is expanding, known as the Hubble constant, is one of the fundamental parameters for understanding the evolution and ultimate fate of the cosmos. However, a persistent difference, called the Hubble Tension, is seen between the value of the constant measured with a wide range of independent distance indicators and … 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
For the first time, scientists have been able to explain the mystery behind the unusual chemical composition in one of the universe’s most distant galaxies. The state-of-the-art theoretical model that the breakthrough research has established could be a key to our better understanding of the far universe. Professor Chiaki Kobayashi of the Centre for Astrophysics … Read more
The James Webb Space Telescope has made one of the most unexpected findings within its first year of service: A high number of faint little red dots in the distant universe could change the way we understand the genesis of supermassive black holes. The research, led by Jorryt Matthee, Assistant Professor in astrophysics at the … Read more