Various models of new physics, including Hidden Valley models and some supersymmetric models, predict the existence of long-lived particles decaying a significant distance away from the interaction point or traveling inside the detector with a beta less than 1. These characteristics make their detection difficult using standard LHC-detector triggers. This paper briefly presents the prospects for searches and detection in the ATLAS detector of these long-lived particles
Several beyond the standard model scenarios predict massive long-lived particles. The talk presents ...
With the start of the Large Hadron Collider a new energy frontier will be accessible to experimental...
AbstractSeveral proposed extensions to the Standard Model, such as certain supersymmetric scenarios,...
Various models of new physics, including hidden valley models and some supersymmetric models, predic...
Various models of new physics, including hidden valley models and some supersymmetric models, predic...
On behalf of the ATLAS Collaboration With the start of the Large Hadron Collider a new energy fronti...
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...
Various models of physics Beyond the Standard Model lead to signatures with long-lived particles, su...
Several models beyond the Standard Model predict new particles which could have a significant lifeti...
Searches for long-lived neutral particles decaying into hadronic jets have been performed with the A...
Long-lived particles are a powerful tool to search for many models of beyond the Standard Model phys...
Based on a benchmark Hidden Sector model, this analysis explores the possibility of new physics bein...
Several extensions of the Standard Model predict the existence of new, massive, long-lived particles...
The discovery of a new type of a heavy long-lived particle (LLP) would be of fundamental significanc...
Several beyond the standard model scenarios predict massive long-lived particles. The talk presents ...
With the start of the Large Hadron Collider a new energy frontier will be accessible to experimental...
AbstractSeveral proposed extensions to the Standard Model, such as certain supersymmetric scenarios,...
Various models of new physics, including hidden valley models and some supersymmetric models, predic...
Various models of new physics, including hidden valley models and some supersymmetric models, predic...
On behalf of the ATLAS Collaboration With the start of the Large Hadron Collider a new energy fronti...
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...
Various models of physics Beyond the Standard Model lead to signatures with long-lived particles, su...
Several models beyond the Standard Model predict new particles which could have a significant lifeti...
Searches for long-lived neutral particles decaying into hadronic jets have been performed with the A...
Long-lived particles are a powerful tool to search for many models of beyond the Standard Model phys...
Based on a benchmark Hidden Sector model, this analysis explores the possibility of new physics bein...
Several extensions of the Standard Model predict the existence of new, massive, long-lived particles...
The discovery of a new type of a heavy long-lived particle (LLP) would be of fundamental significanc...
Several beyond the standard model scenarios predict massive long-lived particles. The talk presents ...
With the start of the Large Hadron Collider a new energy frontier will be accessible to experimental...
AbstractSeveral proposed extensions to the Standard Model, such as certain supersymmetric scenarios,...
DOI
Add to ORKG