Marine sediments contamination by fission product 137Cs-137mBa is a fact since the period 1945-65, when plus than two thousand atomic explosion tests were performed mainly in the southern seas, earth region with minor...Marine sediments contamination by fission product 137Cs-137mBa is a fact since the period 1945-65, when plus than two thousand atomic explosion tests were performed mainly in the southern seas, earth region with minor population density. However, marine flows have produced dissemination of this radioactive pair through the sea bottom all over the world, at different levels, because the sea movement and natural decaying of radioactive pair: parent 137Cs (t1/2 = 30.17 years) and daughter 137mBa (t1/2 = 2.55 minutes). Radioactive detection of these contaminants, compared as percentage with that of natural 40K (t1/2 = 1.28 × 109 years, 0.0118% of elementary K) leads to radiation contamination factor (RCF), as one possible unit to measure the radioactive contamination intensity in different regions, as well to determine if there is some other possible source of this contaminant, for example water cooling from power nuclear reactors when it is discharged at sea. However, radioactive detection always implies an unavoidable statistical variation, which makes more difficult to appreciate the changes as function of time and region. But at beginning of this century, mass spectrometry has got impressive advances, which makes it much more precise and sensible than radioactive detection [1]. This paper attempts to measure with other units the radioactive contamination: 137Cs atoms number per gram of sample, instead radioactivity, which could be more direct and with minor standard deviation that radioactive detection, solving at same time the isobars separation: 137Cs versus 137mBa plus elementary 137Ba (11.23% of Ba element).展开更多
The residue Coulomb interaction(RCI), which affects the result of symmetry-energy coefficient of neutronrich nucleus in isobaric yield ratio(IYR) method, is difficult to be determined. Four RCI approximations are inve...The residue Coulomb interaction(RCI), which affects the result of symmetry-energy coefficient of neutronrich nucleus in isobaric yield ratio(IYR) method, is difficult to be determined. Four RCI approximations are investigated:(i) The M1–RCI adopting the ac/T(the ratio of Coulomb energy coefficient to temperature) determined from the IYR of mirror-nucleus fragments;(ii) The M2–RCI by fitting the difference between IYRs;(iii) The M3–RCI adopting the standard Coulomb energy at a temperature T = 2 Me V; and(iv) Neglecting the RCI among isobars. The M1–, M2– and M3–RCI are no larger than 0.4. In particular, the M2–RCI is very close to zero. The effects of RCI in asym/T of fragment are also studied. The M1– and M4–asym/T are found to be the lower and upper limitations of asym/T, respectively. The M2–asym/T overlaps the M4–asym/T, which indicates that the M2–RCI is negligible in the IYR method, and the RCI among the three isobars can be neglected. The relative consistent low values of M3–asym/T(7.5 ± 2.5) are found in very neutron-rich isobars.展开更多
Investigations into the distribution of neutron and proton densities were conducted within the Skyrme-Hartree-Fock-Bogoliubov(SHFB)framework.It was observed that nucleon orbitals with lower angular quantum numbers are...Investigations into the distribution of neutron and proton densities were conducted within the Skyrme-Hartree-Fock-Bogoliubov(SHFB)framework.It was observed that nucleon orbitals with lower angular quantum numbers are predominantly located inside the nucleus,whereas those with higher angular quantum numbers tend to be distributed more towards the outer regions.Additionally,this study reveals that the difference in the neutron skins of Ru and Zr can be attributed to the distinct contributions of neutron and proton orbitals.Our findings may introduce a novel approach to studying the distribution of nucleon orbitals through relativistic isobaric collisions.展开更多
The method of lutetium isotopic ratio determined by thermal ionization mass spectrometry (TIMS) with a mass of interference isobars Yb was developed. In this method, isotopic ratio of Lu R176/175 was analysed by linea...The method of lutetium isotopic ratio determined by thermal ionization mass spectrometry (TIMS) with a mass of interference isobars Yb was developed. In this method, isotopic ratio of Lu R176/175 was analysed by linear least square method. The uncertainty of values mainly came from the type A uncertainty of the regression.展开更多
The mechanisms of mushroom polysaccharides on immune functions and lipid metabolism of aged mammals have not been fully elucidated.In the present study,after assessing the impacts of one type of Lentinula edodes-deriv...The mechanisms of mushroom polysaccharides on immune functions and lipid metabolism of aged mammals have not been fully elucidated.In the present study,after assessing the impacts of one type of Lentinula edodes-derived polysaccharides,named L2,on immune functions and blood lipid profiles,isobaric tags for relative and absolute quantification(iTRAQ)-based proteomic profiling of the small intestinal tissues from aged mice treated with L2 was performed.L2 reversed immune function declines and modulated the lipid metabolism of aged mice evidenced by increased levels of serum TC,HDL-C,and LDL-C,and reduced levels of serum TG.Moreover,a total of 95 differentially regulated proteins(DRPs) were identified,of which75 were up-regulated and 20 were down-regulated.Most of the DRPs were involved in intracellular and extracellular structure organization,and cellular and metabolic regulation.Particularly,approximately 16 and 9 DRPs participated in the regulation of immune functions and lipid metabolism,respectively.Furthermore,protein-protein interaction analysis highlighted that cadherin-1,plectin,cadherin-17,Ras GTPase-activating-like protein IQGAP2,and ezrin might be key proteins in response to L2 treatment.These findings provide new insights into the biological mechanisms of mushroom polysaccharides in anti-aging from a proteomic perspective.展开更多
Isobaric molar heat capacity affected by pressures for non-ideal gases is calculated theoretically at specified temperatures by means of gaseous equations of state,i.e.Redlish-Kwong(RK)Equation,SoaveRedlich-Kwong(SRK)...Isobaric molar heat capacity affected by pressures for non-ideal gases is calculated theoretically at specified temperatures by means of gaseous equations of state,i.e.Redlish-Kwong(RK)Equation,SoaveRedlich-Kwong(SRK)Equation,Peng-Robinson(PR)Equation,Virial Equation,coupled with Romberg numeric integral via solving the key obstacle(δV/δT)_(p),and integral(δ^(2)V/δT^(2))_(p).As an example,methane's C_(p)is calculated at constant 300 K but 1 MPa&10 MPa.The calculation results show that less than 2%relative errors occur in comparison with literature values at any specified temperatures and pressures if no phase change survives at elevated pressure P_(2)and temperature T,or when specified temperatures are greater than critical temperatures in spite of elevated pressures.However,greater errors would be present if gases were considered to be ideal,or if temperatures are lower than critical temperatures at elevated pressures(>10 MPa),because C_(p)is the function of both temperature and pressure.In particular,elevated pressures have significant effect on C_(p).展开更多
A new siplitter plate presure probe was developed for flow field measurements on an airfoil with slotted flap in a low speed wind tunnel with 7 by 10 ft test section. Wind tunnel tests were conducted at a Reynolds num...A new siplitter plate presure probe was developed for flow field measurements on an airfoil with slotted flap in a low speed wind tunnel with 7 by 10 ft test section. Wind tunnel tests were conducted at a Reynolds number of 2.2 million and Mach number of 0.13. The splitter plate was made of aluminum and had pressure taps on its one side. The probe can make many measurements in the plane of the plate simultaneously by using these pressure tabs. It was supported by a traversing strut in the wind tunnel and surveyed the flow field on the airfoil upper surface. Measured pressures were presented by isobars of coefficients. These isobars were connected with the pressure coefficients distributed over the airfoil. Results of splitter plate pressure probe compare well with other single-point measuring probes. However, results show that no matter how small the probe, its presence in the flow causes a disturbance, especially in the highly time-dependent separated flow regions.展开更多
文摘Marine sediments contamination by fission product 137Cs-137mBa is a fact since the period 1945-65, when plus than two thousand atomic explosion tests were performed mainly in the southern seas, earth region with minor population density. However, marine flows have produced dissemination of this radioactive pair through the sea bottom all over the world, at different levels, because the sea movement and natural decaying of radioactive pair: parent 137Cs (t1/2 = 30.17 years) and daughter 137mBa (t1/2 = 2.55 minutes). Radioactive detection of these contaminants, compared as percentage with that of natural 40K (t1/2 = 1.28 × 109 years, 0.0118% of elementary K) leads to radiation contamination factor (RCF), as one possible unit to measure the radioactive contamination intensity in different regions, as well to determine if there is some other possible source of this contaminant, for example water cooling from power nuclear reactors when it is discharged at sea. However, radioactive detection always implies an unavoidable statistical variation, which makes more difficult to appreciate the changes as function of time and region. But at beginning of this century, mass spectrometry has got impressive advances, which makes it much more precise and sensible than radioactive detection [1]. This paper attempts to measure with other units the radioactive contamination: 137Cs atoms number per gram of sample, instead radioactivity, which could be more direct and with minor standard deviation that radioactive detection, solving at same time the isobars separation: 137Cs versus 137mBa plus elementary 137Ba (11.23% of Ba element).
基金Supported by the Program for Science&Technology Innovation Talents in Universities of Henan Province(13HASTIT046)Young Teacher Project in Henan Normal University(HNU),China
文摘The residue Coulomb interaction(RCI), which affects the result of symmetry-energy coefficient of neutronrich nucleus in isobaric yield ratio(IYR) method, is difficult to be determined. Four RCI approximations are investigated:(i) The M1–RCI adopting the ac/T(the ratio of Coulomb energy coefficient to temperature) determined from the IYR of mirror-nucleus fragments;(ii) The M2–RCI by fitting the difference between IYRs;(iii) The M3–RCI adopting the standard Coulomb energy at a temperature T = 2 Me V; and(iv) Neglecting the RCI among isobars. The M1–, M2– and M3–RCI are no larger than 0.4. In particular, the M2–RCI is very close to zero. The effects of RCI in asym/T of fragment are also studied. The M1– and M4–asym/T are found to be the lower and upper limitations of asym/T, respectively. The M2–asym/T overlaps the M4–asym/T, which indicates that the M2–RCI is negligible in the IYR method, and the RCI among the three isobars can be neglected. The relative consistent low values of M3–asym/T(7.5 ± 2.5) are found in very neutron-rich isobars.
文摘Investigations into the distribution of neutron and proton densities were conducted within the Skyrme-Hartree-Fock-Bogoliubov(SHFB)framework.It was observed that nucleon orbitals with lower angular quantum numbers are predominantly located inside the nucleus,whereas those with higher angular quantum numbers tend to be distributed more towards the outer regions.Additionally,this study reveals that the difference in the neutron skins of Ru and Zr can be attributed to the distinct contributions of neutron and proton orbitals.Our findings may introduce a novel approach to studying the distribution of nucleon orbitals through relativistic isobaric collisions.
文摘The method of lutetium isotopic ratio determined by thermal ionization mass spectrometry (TIMS) with a mass of interference isobars Yb was developed. In this method, isotopic ratio of Lu R176/175 was analysed by linear least square method. The uncertainty of values mainly came from the type A uncertainty of the regression.
基金supported by the Key-Area Research and Development Program of Guangdong Province (2021B0707060001)the Program for Scientific Research Start-Up Funds of Guangdong Ocean UniversityChina Postdoctoral Science Foundation (2016T90787)。
文摘The mechanisms of mushroom polysaccharides on immune functions and lipid metabolism of aged mammals have not been fully elucidated.In the present study,after assessing the impacts of one type of Lentinula edodes-derived polysaccharides,named L2,on immune functions and blood lipid profiles,isobaric tags for relative and absolute quantification(iTRAQ)-based proteomic profiling of the small intestinal tissues from aged mice treated with L2 was performed.L2 reversed immune function declines and modulated the lipid metabolism of aged mice evidenced by increased levels of serum TC,HDL-C,and LDL-C,and reduced levels of serum TG.Moreover,a total of 95 differentially regulated proteins(DRPs) were identified,of which75 were up-regulated and 20 were down-regulated.Most of the DRPs were involved in intracellular and extracellular structure organization,and cellular and metabolic regulation.Particularly,approximately 16 and 9 DRPs participated in the regulation of immune functions and lipid metabolism,respectively.Furthermore,protein-protein interaction analysis highlighted that cadherin-1,plectin,cadherin-17,Ras GTPase-activating-like protein IQGAP2,and ezrin might be key proteins in response to L2 treatment.These findings provide new insights into the biological mechanisms of mushroom polysaccharides in anti-aging from a proteomic perspective.
文摘Isobaric molar heat capacity affected by pressures for non-ideal gases is calculated theoretically at specified temperatures by means of gaseous equations of state,i.e.Redlish-Kwong(RK)Equation,SoaveRedlich-Kwong(SRK)Equation,Peng-Robinson(PR)Equation,Virial Equation,coupled with Romberg numeric integral via solving the key obstacle(δV/δT)_(p),and integral(δ^(2)V/δT^(2))_(p).As an example,methane's C_(p)is calculated at constant 300 K but 1 MPa&10 MPa.The calculation results show that less than 2%relative errors occur in comparison with literature values at any specified temperatures and pressures if no phase change survives at elevated pressure P_(2)and temperature T,or when specified temperatures are greater than critical temperatures in spite of elevated pressures.However,greater errors would be present if gases were considered to be ideal,or if temperatures are lower than critical temperatures at elevated pressures(>10 MPa),because C_(p)is the function of both temperature and pressure.In particular,elevated pressures have significant effect on C_(p).
文摘A new siplitter plate presure probe was developed for flow field measurements on an airfoil with slotted flap in a low speed wind tunnel with 7 by 10 ft test section. Wind tunnel tests were conducted at a Reynolds number of 2.2 million and Mach number of 0.13. The splitter plate was made of aluminum and had pressure taps on its one side. The probe can make many measurements in the plane of the plate simultaneously by using these pressure tabs. It was supported by a traversing strut in the wind tunnel and surveyed the flow field on the airfoil upper surface. Measured pressures were presented by isobars of coefficients. These isobars were connected with the pressure coefficients distributed over the airfoil. Results of splitter plate pressure probe compare well with other single-point measuring probes. However, results show that no matter how small the probe, its presence in the flow causes a disturbance, especially in the highly time-dependent separated flow regions.
