Sentences with phrase «nature of dark»
I study theoretical particle physics and theoretical astrophysics, with a particular interest in the nature of dark matter.
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The nature of these dark and bright structures, and the reason why the Sun is slightly brighter when there are more sunspots, are explained below.
However, the menacing nature of the dark coloring seems to intone an almost smothering quality as opposed to the usual comfort of a blanket.
And its visceral combat is a step above the meticulous nature of dark souls» gameplay.
It was nice to come up against more sci - fi themed foes, with Immortal Planet offering a different vibe to the gothic fantasy nature of the Dark Souls series.
Frystacki, a PhD of Technical University of Munich in Applied Physics & Engineering, is a retired Executive Vice-President Siemens AG and President and CEO Siemens Russia whose work focused on theoretical and practical research on the nature of dark energy and dark matter.
The savage, brutal nature of The Dark Knight has it that each of its main characters is tasked to undergo that particular crucible.
It displayed the truth power and nature of the dark side, and also the importance of the light side.
«Our results make significant progress to elucidate the nature of dark energy,» said Miguel Zumalacárregui, a theoretical physicist who is part of the Berkeley Center for Cosmological Physics at the Department of Energy's Lawrence Berkeley National Laboratory (Berkeley Lab) and UC Berkeley.
The nature of dark energy and the complete theory of gravity are two of the central questions currently facing cosmologists.
To build any type of dark matter detector, researchers have had to make some assumptions about the nature of the dark matter.
The biggest question, dare we say one of the biggest in all of cosmology, centers on the exact nature of dark matter.
Researchers hope these observations will answer fundamental questions about the nature of dark energy — including its effect on the evolution of the universe — and about the prevalence and formation of Earth - like planets in other solar systems.
A $ 1.6 - billion space telescope that could reveal the nature of dark energy and identify Earth - like planets should be the top priority for astronomers and astrophysicists, according to a long - awaited report that lays out the pressing needs for the next 10 years of space science.
These have provided great advances to many important areas of astrophysical research, like the study for the nature of dark matter in the halos of the Milky Way and its neighboring galaxies, the characterisation of thousands of variable stars, and the search for exoplanets.
Named after the Greek mathematician often referred to as the «Father of Geometry,» the Euclid mission will attempt to map out the large - scale structure of the Universe with unprecedented accuracy and attempt to understand the exact nature of dark energy.
This work also began characterizing the time - dependent nature of dark energy.
The second, Euclid, is essentially a space telescope whose primary goal is to study the accelerating expansion of the universe in an attempt to provide an understanding of the exact nature of dark matter.
With current observations suggesting that dark energy comprises more than 70 percent of the matter - energy density of the present - day universe, astronomers say that measuring the apparent shapes and the distribution of galaxies in the Universe will constrain the nature of dark energy and allow them to examine whether the general theory of relativity is still a valid description of gravitation on scales of billions of light years.
What is the nature of dark matter?
«This is ground - breaking science with implication for elucidating the nature of dark matter, solving a long - standing particle physics problem (hinting at physics beyond the Standard Model) and constraining cosmological models,» said Mike Pivovaroff, a member of the LLNL CAST team and one of the four CAST collaborators that wrote the manuscript.
The discovery of these dwarf galaxies, the first in nearly a decade, could provide much needed data to test current theories on the origin and nature of dark matter — the elusive force that holds galaxies together.
This unusual x-ray radiation might offer a clue to the nature of dark matter.
The image is the first part of a «cosmic census» that aims to shed light on the expansion of the Universe and the nature of dark matter and dark energy.
The nature of dark matter — which physicists describe as the invisible component or so - called «missing mass» in the universe that would explain the faster - than - expected spins of galaxies, and their motion in clusters observed across the universe — has eluded scientists since its existence was deduced through calculations by Swiss astronomer Fritz Zwicky in 1933.
The nature of dark matter is one of the central problems in astronomy today.
Researchers from Canada, California, and Poland have devised a straightforward way to test an intriguing idea about the nature of dark energy and dark matter.
There are no particles in the Standard Model of Particle Physics that are WIMPs, so the nature of dark matter has been one major problem pushing physicists to explore extensions of the Standard Model.
Faced with such ignorance of the nature of dark matter, astronomers try inputting different models of the dark matter into the simulations and see if the results match the observations.
«Of all the many mysteries of modern astronomy, none is more vexing than the nature of dark matter.
Professor Nichol said: «Measuring the expansion rate of the universe over its entire history is key in determining the nature of the dark energy that has dominated the universe during the past six billion years.
The result constitutes a fundamental step forward in the quest for the nature of dark matter.
But the tricksy nature of dark matter detection soon showed up.
This produced a number of interesting results, including some potential new insights into the mysterious nature of dark energy.
At a cosmology workshop held here on 20 March, scientists unveiled Tianlai, or «Sound of Heaven,» a project to listen to radio emissions from deep space that may reveal the nature of dark energy.
No one knows the true nature of dark matter, but WIMPs, or Weakly Interacting Massive Particles, represent a leading class of candidates.
Supersymmetry has long been a favorite candidate for extending the Standard Model, because it would answer numerous open questions, beginning with the nature of dark matter, the unseen mass that keeps galaxies rotating faster than they otherwise would.
«The SAGA Survey will provide a critical new understanding of galaxy formation and of the nature of dark matter.»
This second map should also help illuminate the nature of dark energy.
It will focus on resolving two mysteries: the origins of cosmic rays, and the nature of the dark matter that physicists believe constitutes 85 % of all matter in the universe.
For the past 20 years, astronomers and theoretical physicists have speculated on the nature of dark energy, but it remains an unsolved mystery.
The next big step for the physics of fundamental interactions now is to understand the nature of Dark Matter in the Universe: what is it made of?
Many theories exist for explaining the nature of this dark matter, and lots of experiments have been attempting to detect it via subtle interactions with ordinary matter.
A new twist on standard quantum theory promises not only to rid reality of its observer problem, but also to answer a host of unresolved issues in cosmology, from the workings of black holes to the nature of dark energy to why time flows in only one direction.
It may even help pin down the nature of the dark matter that pervades the universe.
The research is valuable because it shows how studying the formation of the first stars can help scientists learn more about the nature of dark matter, says astronomer Volker Bromm of the University of Texas, Austin.
These models are key to understanding the mysterious nature of dark matter.
Gamma - 400 aims to probe the nature of dark matter and the origins of extragalactic cosmic rays, and will search for high - energy gamma - ray bursts.
What is the nature of the dark matter?
Still, he says, it's «pretty amazing» that although scientists can't see it or measure it, «we can start talking about constraining the nature of dark matter.»