Detao Xiao scite author profile

The main goal of the NICA heavy-ion program at JINR is an experimental investigation into the properties of nuclear matter within the energy region of the maximum baryonic density.The Multi Purpose Detector (MPD) is one of the detectors at NICA collider, which is optimized for the study on properties of hot and dense matter in heavy-ion collisions and, in particular, the search for a manifestation of possible deconfinement and/or chiral symmetry restoration phase transitions, critical end-point and mixed quark-hadron phase. Electromagnetic calorimeter (ECal) is an important part of MPD. The particular goal of MPD-ECal is to measure position and energy of photons and electrons. Taking all factors (high energy resolution, high segmentation, large enough distance to the vertex, small Moliere radius, high magnetic field and high time resolution) into consideration, a shashlik-type electromagnetic calorimeter is selected. Therefore the tower consists of 220 layers of lead plates and scintillator plates whose thicknesses are namely 0.3mm/1.5mm. The tower cell is 4×4 cm 2 in size. To reduce the dead zones effect, all towers should be cut from four sides at small angles, which will significantly improve the position resolution and the performance homogeneity of the ECal. Currently, energy deposition, energy resolution and position reconstruction are studied through Monte Carlo simulations. A prototype of shashlik Ecal has been built and the cosmic test results show that the number of photoelectrons (Npe) is around 522. By comparing with the previous ECal experimental results and simulation results, it is indirectly considered that the energy resolution of the prototype has reached 5%/ √ E (GeV). Key technologies to increase light yield are being studied and will be used in the development of new prototypes.

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A novel algorithm for quick and continuous tracing the change of radon concentration in environment

Tan

Xiao

2011

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Several measurements of the radon concentration are performed by RAD7 in the University of South China. We find that 30-40 min is needed for RAD7 for tracing the concentration of the standard radon chamber. There are two reasons. The first is that the sufficient time of air cycle is needed for the radon concentration in internal cell of RAD7 equal to that of the environment; and the second is that the sufficient decay time is needed for the (218)Po concentration in internal cell of RAD7 equal to that of the radon. We used a zeroth order approximation to describe the evolution of the environment radon concentration, and obtained a novel algorithm for quick and continuous tracing the change of radon concentration. The corrected radon concentration obtained through this method is in good agreement with the reference value. This method can be applied to develop and improve the instruments for tracing the change of radon concentration quickly.

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Adsorption and desorption of hydrogen on/from single-vacancy and double-vacancy graphenes

Fei

Liu

et al. 2019

NUCL SCI TECH

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Distributions of fallout 137Cs, 239+240Pu and 241Am in a soil core from South Central China

Wang

Men

et al. 2022

Journal of Environmental Radioactivity

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Detao Xiao

Revision for Measuring the Radon Exhalation Rate From the Medium Surface

Development of shashlik electromagnetic calorimeter for the NICA/MPD

A novel algorithm for quick and continuous tracing the change of radon concentration in environment

Adsorption and desorption of hydrogen on/from single-vacancy and double-vacancy graphenes

Distributions of fallout 137Cs, 239+240Pu and 241Am in a soil core from South Central China

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