Big Bang tagged posts

Scientists behind a theory that the speed of light is variable – and not constant as Einstein suggested – have made a prediction that could be tested.

Scientists behind a theory that the speed of light is variable – and not constant as Einstein suggested – have made a prediction that could be tested. Einstein observed that the speed of light remains the same in any situation, and this meant that space and time could be different in different situations.The assumption that the speed of light is constant, and always has been, underpins many theories in physics, such as Einstein’s theory of general relativity. In particular, it plays a role in models of what happened in the very early universe, seconds after the Big Bang.

But some researchers have suggested that the speed of light could have ...

In her research published in The Royal Society Dr Vaccaro says T violation, or a violation of time reversal (T) symmetry, is forcing the universe and us in it, into the future. (Stock image) Credit: © Stillfx / Fotolia

A/Prof Dr Joan Vaccaro, of Griffith’s Centre for Quantum Dynamics, has solved an anomaly of conventional physics and shown that a mysterious effect called ‘T violation’ could be the origin of time evolution and conservation laws. “I begin by breaking the rules of physics, which is rather bold I have to admit, but I wanted to understand time better and conventional physics can’t do that,” Dr Vaccaro says.

“I do get conventional physics in the end though. This means that the rules I break are not fundamental. It also means that I can see why the universe has those rules...

Composite image of the galaxy cluster from three different filters on the Hubble Space Telescope. The wave charts (insets at left) show spectra of the multiply imaged systems. The fact that they share peaks at the same wavelength shows that they belong to the same source. At bottom right, the Keck I and Keck II Telescopes at Hawaii’s the W. M. Keck Observatory. Credit: BRADAC/HST/W. M. Keck Observatory

Discovery could help explain how ‘cosmic dark ages’ ended. Using the W. M. Keck Observatory on the summit on Mauna Kea in Hawaii, the researchers detected the galaxy as it was 13 billion years ago. The researchers made the discovery using gravitational lensing to see the incredibly faint object, which was born just after the Big Bang...

The nuclear phase diagram: RHIC sits in the energy “sweet spot” for exploring the transition between ordinary matter made of hadrons and the early universe matter known as quark-gluon plasma. Credit: Image courtesy of Brookhaven National Laboratory

An in-depth look at the origins of matter and the environmental conditions that helped shape the universe today. Our understanding is shaped by re-creating events that constituted the Big Bang and by studying the primordial soup of fundamental particles of the very early universe. One of the best science tools for this is the Relativistic Heavy Ion Collider (RHIC), a DOE Office of Science User Facility at Brookhaven National Laboratory.

RHIC, a particle collider, is the first machine capable of mashing together heavy ions, which are atoms that h...