Add to ORKGVarious models of physics Beyond the Standard Model lead to signatures with long-lived particles, such that the decay of the new particle is at a significant distance from the collision point. These striking signatures provide interesting technical challenges due to their special reconstruction requirements as well as their unusual backgrounds. This talk will present recent results in searches for new, long-lived particles using ATLAS Run 2 data
Based on a benchmark Hidden Sector model, this analysis explores the possibility of new physics bein...
AbstractSeveral proposed extensions to the Standard Model, such as certain supersymmetric scenarios,...
This talk, for Aspen 2017, covers long-lived particle searches at ATLAS, from Run2
Various models of physics Beyond the Standard Model lead to signatures with long-lived particles, su...
Various models of new physics predict the existence of long lived particles decaying a significant d...
Several beyond the standard model scenarios predict massive long-lived particles. The talk presents ...
Several models beyond the Standard Model predict new particles which could have a significant lifeti...
Various models of new physics, including Hidden Valley models and some supersymmetric models, predic...
Various SUSY scenarios lead to signatures with long-lived particles, such that the decay of the new ...
Long-lived particles are a powerful tool to search for many models of beyond the Standard Model phys...
Several extensions of the Standard Model predict the existence of new, massive, long-lived particles...
It is well assessed that the Standard Model (SM) correctly predicts the behaviour of the Universe at...
Many theories beyond the Standard Model (BSM) predict unique signatures which are difficult to recon...
Various models of new physics, including hidden valley models and some supersymmetric models, predic...
Particles beyond the Standard Model (SM) can generally have life times that are long compared to SM ...
Based on a benchmark Hidden Sector model, this analysis explores the possibility of new physics bein...
AbstractSeveral proposed extensions to the Standard Model, such as certain supersymmetric scenarios,...
This talk, for Aspen 2017, covers long-lived particle searches at ATLAS, from Run2
Various models of physics Beyond the Standard Model lead to signatures with long-lived particles, su...
Various models of new physics predict the existence of long lived particles decaying a significant d...
Several beyond the standard model scenarios predict massive long-lived particles. The talk presents ...
Several models beyond the Standard Model predict new particles which could have a significant lifeti...
Various models of new physics, including Hidden Valley models and some supersymmetric models, predic...
Various SUSY scenarios lead to signatures with long-lived particles, such that the decay of the new ...
Long-lived particles are a powerful tool to search for many models of beyond the Standard Model phys...
Several extensions of the Standard Model predict the existence of new, massive, long-lived particles...
It is well assessed that the Standard Model (SM) correctly predicts the behaviour of the Universe at...
Many theories beyond the Standard Model (BSM) predict unique signatures which are difficult to recon...
Various models of new physics, including hidden valley models and some supersymmetric models, predic...
Particles beyond the Standard Model (SM) can generally have life times that are long compared to SM ...
Based on a benchmark Hidden Sector model, this analysis explores the possibility of new physics bein...
AbstractSeveral proposed extensions to the Standard Model, such as certain supersymmetric scenarios,...
This talk, for Aspen 2017, covers long-lived particle searches at ATLAS, from Run2