supersymmetry造句1) One possibility predicted by M-theory is supersymmetry, an idea that says fundamental particles have heavy – and as yet undiscovered – twins, with curious names such as selectrons and squarks.
2) According to supersymmetry each force emerged separately during the big bang.
3) Scientists will be looking for evidence of "supersymmetry" - a theory in which existing elementary particles are paired with a massive "shadow" partner - and extra dimensions.
4) In the maths of supersymmetry, the Higgs emerges quite naturally.
5) A particle theory called "supersymmetry" predicts the existence of weakly interacting massive particles (WIMPs), which could be the particles of dark matter.
6) "We're painting supersymmetry into a corner," says Chris Lester, a particle physicist at the University of Cambridge, UK, who works with the LHC's ATLAS detector.
7) Processes other than supersymmetry could also account for the triple lepton surplus.
8) Models based on supersymmetry seek to simplify things by making them more complicated.
9) For supersymmetry, ATLAS and CMS will each have enough data to double today's sensitivity to certain new discoveries.
10) Confirmation of supersymmetry would be a shot in the arm for M-theory and help physicists explain how each forces at work in the universe arose from one super-force at the dawn of time.
11) General conditions of supersymmetry breaking for calculable theories are discussed, with emphasize on relation between supersymmetry and R-symmetry.
12) It's helped physicists rule out certain supersymmetry models that predict otherwise.
13) Confirmation of supersymmetry would be a shot in the arm for M-theory and help physicists explain how each force at work in the universe arose from one super-force at the dawn of time.
14) Indeed, physicists think dozens of types of particles may be waiting to be discovered—one for each of the known particles, paired off in an arrangement known as supersymmetry.
15) One framework to explain physics beyond the Standard Model is known as supersymmetry.
16) Latest results from the LHC are casting doubt on the theory of supersymmetry.
17) Data from the CMS experiment is showing significant excesses of particles known as leptons being created in triplets, a result that could be interpreted as evidence for a theory called supersymmetry.
18) By the end of the year, it will reach 1,000 gigaelectronvolts--potentially ruling out some of the most favored variations of supersymmetry theory.
19) Physicists also hope the collider will help them see and understand other suspected phenomena, such as dark matter, antimatter and supersymmetry.
20) By then, he said, his team might be able to make a definitive statement about supersymmetry and some other theories to explain physics beyond the Standard Model.