strange particle

This makes it relatively easy to detect strange particles through the tracks left by their decay products.

The strange particles would leave a track of bubbles as they passed through the liquid, and their tracks could be photographed.

New underground detectors are being built to search for possible candidates for these strange particles.

The first was the idea of "associated production" to explain the puzzling properties of strange particles.

He wrote numerous scientific papers on subjects like spectroscopy, cosmic rays and the history of strange particles.

If so, could such a strange particle be produced by the LHC?

In the 1960s, the emphasis in the study of the weak interaction shifted from strange particles to neutrinos.

After obtaining his doctorate his interest shifted to strange particles and K mesons.

Atoms may be composed of electrons orbiting a hypernucleus that includes strange particles called hyperons.

Strange particles appear copiously due to "associated production" of a strange and an antistrange particle together.

The cloud chamber also needs time to reset between recording events and cannot keep up with the high-energy accelerators used in studying strange particles.

He explored the decay modes of mu-mesons and recognized several of the strange particles when particle physics was at its beginning.

Stenger's research career, which ran from the 1960s through the late 1990s, involved work that determined properties of gluons, quarks, strange particles, and neutrinos.

This strange particle, the tac--tacm" The President stumbled over the pronunciation.

In 1950 he made the first observation of strange particle decays after the initial discovery of two cases in England in 1947.

He also speculated that in what became known as the Goldhaber-Christie model, the so-called strange particles were composites of just 3 basic particles.

He did important work on muon-catalyzed fusion, Kaon regeneration, strange particles, diffraction of particle beams, W boson phenomenology, and particle accelerator technology.

While at the University of Illinois (1957-1967) Jackson initially continued work on weak interactions as well as strange particle interactions at low energy with Wyld and others.

The study of the relative yields of strange and non strange particles provides information about the competition of these processes and thus the reaction mechanism of particle production.

Goldhaber gave a seminal talk at the 1965 Rochester Conference that marked the transition from cosmic ray based experiments to particle accelerator base experiments in the study of strange particles.

There is a theory that strange particles such as hyperons and dibaryons could form in the interior of a neutron star, changing its mass-radius ratio in ways that might be detectable.

In 1950, while at Osaka University, Nishijima was hired by Yoichiro Nambu to work on the theory of strong interactions and of strange particles (then called V particles).

Among their top goals are finding the identity of the dark matter that shapes the visible cosmos and the strange particle known as the Higgs boson, which is thought to imbue other particles with mass.

After all they claim that tunneling can generally be explained with virtual photons, the strange particles introduced by Richard Feynman and shown for evanescent modes by Ali and by Cargnilia and Mandel.

First you can produce many new particles, transforming the kinetic energies of the nucleons (protons and neutrons are called nucleons) into other particles such as pi mesons, photons, strange particles, and even more exotic particles.