Investigation of reactions using polarized and unpolarized deuteron beam at Nuclotron: current status and perspectives

Deuteron induced reactions at intermediate energies are investigated at Internal Target Station (ITS) of Nuclotron. The dp elastic scattering data have been accumulated in the angular range (70◦ - 120◦) in c.m from 0.3 to 2.0 GeV of deuteron energy. Part of the obtained results of differential cross sections and analyzing powers of dp elastic scattering are compared with theoretical predictions based on relativistic multi-scattering mode

Measurement of the vector and tensor analyzing powers for Dp-elastic scattering at the energy of 800 MeV

The vector Ay and tensor analyzing powers Ayy and Axx for dp-elastic scattering were measured at the energy of 800 MeV and at the angular range from 60° to 135° in the center-of-mass system at the JINR Nuclotron. The experimental data are compared with the calculations obtained within framework of relativistic multiple scattering approac

First results on the energy scan of the vector Ay and tensor Ayy and Axx analyzing powers in deuteronproton elastic scattering at Nuclotron

New results on the vector A y and tensor Ayy and Axx analyzing powers in deuteronproton elastic scattering obtained at Nuclotron in the energy range 400-1800 MeV are presented. These data have been obtained in 2016-2017 at DSS setup at internal target station using polarized deuteron beam from new source of polarized ions. The preliminary data on the deuteron analyzing powers in in the wide energy range demonstrate the sensitivity to the shortrange spin structure of the nucleon-nucleon correlation

Spin studies of the short-range correlations at Nuclotron

The results on the angular dependencies of the vector Ay and tensor Ayy and Axx analyzing powers in deuteron-proton elastic scattering at large scattering angles are presented. These data were obtained at internal target at JINR Nuclotron in the energy range 400-1800 MeV using polarized deuteron beam from new polarized ion source. New data on the deuteron analyzing powers in in the wide energy range demonstrate the sensitivity to the short-range spin structure of the isoscalar polarized deutero

Deuteron and proton beams polarimetry at internal target at JINR Nuclotron

The spin program at SPD NICA as well as the experiments at Nuclotron require high intensity polarized proton and deuteron beams with high value of the polarization. The upgraded deuteron beam polarimeter at internal target at Nuclotron has been used to obtain the vector and tensor polarization for 6 different spin modes of new polarized source of ions. The values of the beam polarization was about 65-75% from their ideal values. The longterm stability of the deuteron beam polarization was demonstrate

The capabilities of MRI in the lung lesions diagnosis in patients with COVID-19

Backgrounds. The imaging diagnostic methods have become particularly important during the COVID-19 pandemic, and computed tomography of the thorax (CT) is considered to be the gold standard in the cases of lung lesions and in the evaluation of changes in the pulmonary parenchyma in dynamics. However, it is well known that the CT method is associated with a significant radiation dose, especially given the fact that repeated, and often reiterated control CT-tests are required for many patients who suffer COVID-19 or have recovered from the disease. In order to reduce the potential radiation exposure and receive some additional diagnostic information, we applied the magnetic resonance imaging (MRI) method for viral pneumonia at the FRCC of FMBA of Russia, which was redesigned as a center for the treatment of patients with COVID-19. Aim. The aim is to evaluate the possibilities of the lung MRI in the diagnosis of pneumonia caused by the new coronaviral infection, to describe the specific symptoms of lung parenchyma lesions using various pulse sequences, and compare the results with the CT data. Methods. The article is based on the practice of applying high-resolution computed tomography (HRCT) and MRI of the lungs in 15 patients with pneumonia caused by COVID-19. Results. The comparison of the HRCT data and T2-weighted images (T2-WI) in 100% of cases revealed a complete correlation in the size, number and position of the lung tissue areas with reduced air saturation by the type of ground glass opacity and the consolidation zones. The level of linear and reticular changes detection in MRI reached 73.3%. Free fluid in the pleural cavities in a moderate and minimal volume was revealed on T2-WI in 12 patients (80% of cases), while it was not diagnosed by HRCT in all the cases. The mediastinal and intra-pulmonary lymph nodes were visualized distinctly. In T1-weighted images (T1-WI), the areas of ground glass opacity were either not visualized, or were represented by smaller areas when compared to the HRCV data and reticular changes were also displayed worse. In 73.3% cases, the consolidation zones on T1-WI fully corresponded or were almost similar in characteristics to changes visualized by HRCT. At the same time, it is worth noting that performing T1-WI out phase more clearly displayed the consolidation zones when compared to T1-WI in phase. Foci of increased signal on T1-WI with fat suppression were registered in 3 patients against the background of consolidation sites which in comparison with the data of T2-WI, would suggest the presence of parenchymal hemorrhages. Conclusion. Lung MRI is a fairly sensitive method for identifying areas of ground glass opacity and consolidation, reticular changes and lymphadenopathy, and is superior to HRCT when displaying pleural effusion. Chest MRI may be recommended as a diagnostic method for suspected pulmonary COVID-19 lesion in children and pregnant women in order to exclude ionizing radiation exposure, as well as for monitoring the condition of lung tissue after viral pneumonia, if the patient was previously exposed to a high radiation dose