Add to ORKGThe large sensitive volume of the Silicon Strip Tracker of CMS detector allows, for a typical track, up to 20 samplings of the specific energy loss by ionization, providing a powerful tool for particle identification at low $\beta\gamma$ values. We report on the application to hadron identification in the first $pp$ collisions recorded by the CMS detector at $\sqrt{s}=$~0.9 and 7~TeV and on applications to other CMS analyses, including the search for highly-ionizing exotic particles
Heavy Stable (or long-lived) Charged Particles (HSCP) are predicted by various extensions to the Sta...
The pixel detector of CMS can be used to reconstruct very low pT charged particles down to about 0.1...
The study of the detection sensitivity to a heavy stable charged particle (HSCP) at the CMS detector...
The large sensitive volume of the Silicon Strip Tracker of the CMS detector allows up to 20 sampling...
Some complementary methods are proposed for an identification of charged particles based on $dE/dx$ ...
We report in this note a study of particle identification by pulse height information in the CMS tra...
It is shown by simulation studies that essentially each inelastic hadronic interaction in silicon ge...
The CMS measurement of the charged hadron pseudorapidity and transverse momentum distributions in mi...
Inelastic nuclear collisions of hadrons incident on silicon sensors can generate secondary highly io...
The CMS detector can be used to search for Heavy Stable Charged Particles (HSCPs) which might signal...
The branching fraction for the semi-inclusive process B→ήXs, where Xs is a strange hadronic system, ...
The branching fraction for the semi-inclusive process B→ήXs, where Xs is a strange hadronic system, ...
A method of generating energy loss distributions for particles of unit charge with a specific incide...
In high energy physics, silicon particles detectors are widely used in tracking applications. They ...
The pixel detector of CMS can be used to reconstruct very low pT charged particles down to about 0.1...
Heavy Stable (or long-lived) Charged Particles (HSCP) are predicted by various extensions to the Sta...
The pixel detector of CMS can be used to reconstruct very low pT charged particles down to about 0.1...
The study of the detection sensitivity to a heavy stable charged particle (HSCP) at the CMS detector...
The large sensitive volume of the Silicon Strip Tracker of the CMS detector allows up to 20 sampling...
Some complementary methods are proposed for an identification of charged particles based on $dE/dx$ ...
We report in this note a study of particle identification by pulse height information in the CMS tra...
It is shown by simulation studies that essentially each inelastic hadronic interaction in silicon ge...
The CMS measurement of the charged hadron pseudorapidity and transverse momentum distributions in mi...
Inelastic nuclear collisions of hadrons incident on silicon sensors can generate secondary highly io...
The CMS detector can be used to search for Heavy Stable Charged Particles (HSCPs) which might signal...
The branching fraction for the semi-inclusive process B→ήXs, where Xs is a strange hadronic system, ...
The branching fraction for the semi-inclusive process B→ήXs, where Xs is a strange hadronic system, ...
A method of generating energy loss distributions for particles of unit charge with a specific incide...
In high energy physics, silicon particles detectors are widely used in tracking applications. They ...
The pixel detector of CMS can be used to reconstruct very low pT charged particles down to about 0.1...
Heavy Stable (or long-lived) Charged Particles (HSCP) are predicted by various extensions to the Sta...
The pixel detector of CMS can be used to reconstruct very low pT charged particles down to about 0.1...
The study of the detection sensitivity to a heavy stable charged particle (HSCP) at the CMS detector...