The BM@N experiment (Dubna, JINR) within the NICA complex is a running fixed target experiment. This paper mainly discusses the software support of the experimen and presents the status of the development and testing algorithms to be used for the reconstruction of heavy-ion collisions. Algorithms of reconstruction are described and tested with Monte Carlo input demonstrating a reasonable level of quality assurance. First results on particle identification being a good probe to estimate quality of reconstruction are also mentioned
The future heavy-ion experiment CBM (FAIR/GSI, Darmstadt, Germany) will focus on measurement of very...
The future heavy-ion experiment CBM (FAIR/GSI, Darmstadt, Germany) will focus on the measurements of...
Targeting for rare observables, the CBM experiment will operate at high interaction rates of up to 1...
In the paper, the main accent is put on development of software to be used in the BM@N experiment. T...
A new generation of experiments for the relativistic nuclear physics is expected to be started up in...
A new generation of experiments on relativistic nuclear physics is planned to be started in the near...
The Baryonic Matter at Nuclotron (BM@N) experiment represents the first phase of the Nuclotron-based...
The Compressed Baryonic Matter experiment (CBM) will investigate strongly interacting matter at high...
n this note the status of the reconstruction package intended for track reconstruction of heavy ion ...
One of the main problems to be solved in modern high energy physics experiments on particle collisio...
The drift chambers (DCH’s) are an important part of the tracking system of the BM@N experiment desig...
The mission of the Compressed Baryonic Matter (CBM) experiment is to investigate the phase diagram o...
The BM@N experiment is considered as the first phase of NICA Mega science project. The energy of the...
Drift chambers (DCH) constitute an important part of the tracking system of BM@N experiment designed...
Targeting for rare observables, the CBM experiment will operate at high interaction rates of up to 1...
The future heavy-ion experiment CBM (FAIR/GSI, Darmstadt, Germany) will focus on measurement of very...
The future heavy-ion experiment CBM (FAIR/GSI, Darmstadt, Germany) will focus on the measurements of...
Targeting for rare observables, the CBM experiment will operate at high interaction rates of up to 1...
In the paper, the main accent is put on development of software to be used in the BM@N experiment. T...
A new generation of experiments for the relativistic nuclear physics is expected to be started up in...
A new generation of experiments on relativistic nuclear physics is planned to be started in the near...
The Baryonic Matter at Nuclotron (BM@N) experiment represents the first phase of the Nuclotron-based...
The Compressed Baryonic Matter experiment (CBM) will investigate strongly interacting matter at high...
n this note the status of the reconstruction package intended for track reconstruction of heavy ion ...
One of the main problems to be solved in modern high energy physics experiments on particle collisio...
The drift chambers (DCH’s) are an important part of the tracking system of the BM@N experiment desig...
The mission of the Compressed Baryonic Matter (CBM) experiment is to investigate the phase diagram o...
The BM@N experiment is considered as the first phase of NICA Mega science project. The energy of the...
Drift chambers (DCH) constitute an important part of the tracking system of BM@N experiment designed...
Targeting for rare observables, the CBM experiment will operate at high interaction rates of up to 1...
The future heavy-ion experiment CBM (FAIR/GSI, Darmstadt, Germany) will focus on measurement of very...
The future heavy-ion experiment CBM (FAIR/GSI, Darmstadt, Germany) will focus on the measurements of...
Targeting for rare observables, the CBM experiment will operate at high interaction rates of up to 1...