He and his colleagues examined the behaviour of
scalar particles (the spin of these particles is zero — an example of this could be the Higgs boson) in the vicinity of black holes and massive compact objects.
Not exact matches
When women routinely win Nobel Prizes in physics, chemistry or medicine, when a woman becomes a world chess champion, when a woman conceives and develops a brand new computer chip that represents a significant advancement over quad cores, when a woman invents warp drive or phasers, when a woman solves an «insolvable» math problem, when a woman, while working with the Large Hadron Collider, discovers the now - hypothetical Higgs Boson to be an actual
scalar subatomic
particle, when a woman figures out how to pinpoint the exact location of an electron at any point in time, when a woman working for Merck or Pfizer develops a remedy for Alzheimer's disease, when a woman's baseball team can defeat the New York Yankees, when a woman can bench press six hundred pounds, run the 100 meter dash in under nine seconds or set a world record in the high jump, then the fairer sex will have made an advance or contribution unlike any it has made before.
Again, they have found a new Higgs Boson
particle back in 2012 that exhibits the Particle Physics Standard Model Higgs Boson Particle that is spin - 0, scalar, but not yet proven to be
particle back in 2012 that exhibits the
Particle Physics Standard Model Higgs Boson Particle that is spin - 0, scalar, but not yet proven to be
Particle Physics Standard Model Higgs Boson
Particle that is spin - 0, scalar, but not yet proven to be
Particle that is spin - 0,
scalar, but not yet proven to be the one.
It is not yet proven to be the
Particle Physics Standard Model Higgs Boson (Spin - 0, a
Scalar!)
The Standard Model has 40 species of elementary
particles (24 fermions, 12 vector bosons, and 4
scalars), which can combine to form composite
particles, accounting for the hundreds of other species of
particles discovered since the 1960s.
However, cosmologists soon realised that the dark matter could be made of even more exotic things: supersymmetric
particles such as the gravitino or photino, for example, or oscillating
scalar fields such as the axion.
Things took a more interesting turn when physicists looked at excitations in the
scalar field, which are interpreted as
particles.