Add to ORKGWe study the impact of precision timing detection systems on the LHC experiments’ long-lived particle search program during the HL-LHC era. We develop algorithms that allow us to reconstruct the mass of such charged particles and perform particle identification using the time-of-flight measurement. We investigate the reach for benchmark scenarios as a function of the timing resolution, and find sensitivity improvement of up to a factor of ten over searches that use ionization energy loss information, depending on the particle’s mass
Future $^+^-$ colliders are excellent tools to probe fundamental physics beyond Standard Model via H...
Results are presented of a search for heavy stable charged particles produced in proton-proton colli...
Particle identification is an important feature of the ALICE detector at the LHC. In particular, for...
We study the impact of precision timing detection systems on the LHC experiments’ long-lived particl...
Abstract We study the impact of precision timing detection systems on the LHC experiments’ long-live...
If long lived charged particles exist, and produced at the LHC, they may travel with velocity signif...
Results are presented of a search for heavy stable charged particles produced in proton-proton colli...
Results are presented of a search for heavy stable charged particles produced in proton-proton colli...
If long lived charged particles exist, and produced at the LHC, they may travel with velocity signif...
Results are presented of a search for heavy stable charged particles produced in proton-proton colli...
A long-standing kinematic challenge in data analysis at hadron colliders is the determination of the...
The detection of long-lived particles (LLPs) in high energy experiments are key for both the study o...
We present prospects for the usage of precise timing information during the high-luminosity phase of...
The work presented in this thesis constitutes a significant contribution to the first high level tri...
Results are presented of a search for heavy stable charged particles produced in proton-proton colli...
Future $^+^-$ colliders are excellent tools to probe fundamental physics beyond Standard Model via H...
Results are presented of a search for heavy stable charged particles produced in proton-proton colli...
Particle identification is an important feature of the ALICE detector at the LHC. In particular, for...
We study the impact of precision timing detection systems on the LHC experiments’ long-lived particl...
Abstract We study the impact of precision timing detection systems on the LHC experiments’ long-live...
If long lived charged particles exist, and produced at the LHC, they may travel with velocity signif...
Results are presented of a search for heavy stable charged particles produced in proton-proton colli...
Results are presented of a search for heavy stable charged particles produced in proton-proton colli...
If long lived charged particles exist, and produced at the LHC, they may travel with velocity signif...
Results are presented of a search for heavy stable charged particles produced in proton-proton colli...
A long-standing kinematic challenge in data analysis at hadron colliders is the determination of the...
The detection of long-lived particles (LLPs) in high energy experiments are key for both the study o...
We present prospects for the usage of precise timing information during the high-luminosity phase of...
The work presented in this thesis constitutes a significant contribution to the first high level tri...
Results are presented of a search for heavy stable charged particles produced in proton-proton colli...
Future $^+^-$ colliders are excellent tools to probe fundamental physics beyond Standard Model via H...
Results are presented of a search for heavy stable charged particles produced in proton-proton colli...
Particle identification is an important feature of the ALICE detector at the LHC. In particular, for...