A wealth of observations shows that the universe is composed of more than 96% invisible matter and energy. The nature of these missing components is one of the most fundamental mys...
The nature of dark matter is one of the most important research topics in physics today. It pertains to fundamental unanswered questions in particle physics, astrophysics, and cosm...
Two central questions facing numerous fields will be addressed by this award: "How does one reach rigorous quantitative conclusions when the science involves complicated numerical...
A wealth of observations, dating back 70 years, show that the universe is composed of >96% invisible matter and energy. The nature of these missing components is one of the most fu...
A wealth of observations shows that the universe is composed of >96% invisible matter and energy. The leading candidate for the invisible "dark matter" is a subatomic particle left...
Direct observation of dark matter will have profound implications in astrophysics and particle physics. By directly observing dark matter particles in our detectors, we will be abl...
The last decade has witnessed a revolution in our understanding of the early and present Universe with the confirmation that seeds of quantum mechanical origin are ultimately respo...
The discovery of dark matter is of fundamental importance to cosmology, astrophysics, and elementary particle physics. A broad range of observations indicate that 80 to 90% of the ...
The leading hypothesis for the nature of dark matter is that it consists of new elementary particles produced moments after the Big Bang, generally referred to as Weakly Interactin...
Understanding the mechanism of electroweak symmetry breaking and uncovering the particle-physics origins of dark matter and dark energy are some of the most fundamental questions i...
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