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96 results on '"NIU Zhong-ming"'

1. Prediction of Nuclear Charge Density Distribution with Feedback Neural Network

Author

Shang, Tian-Shuai, Li, Jian, and Niu, Zhong-Ming

Subjects
Nuclear Theory
Abstract

The nuclear charge density distribution plays an important role in nuclear physics and atomic physics. As one of the most frequently used models to obtain charge density distribution, the two-parameter fermi (2pF) model has been widely applied in both nuclear physics and atomic physics. Currently, the feedforward neural network has been employed to study the available 2pF model parameters for 86 nuclei, and it is found that by introducing A^{1/3} into the input parameter of the neural network, the accuracy and precision of the parameter learning effect are improved. Furthermore, the average result of multiple predictions is more reliable than the best result of a single prediction, and there is no significant difference between the average result of density value and of parameter value for the average charge density distribution. In addition, 2pF parameters of 284 (near) stable nuclei are also predicted in this work, which provides a reference for the experiment., Comment: 11 pages, 8 figures

Published
2024
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2. Calibration of nuclear charge density distribution by back-propagation neural networks

Author

Yang, Zu-Xing, Fan, Xiao-Hua, Naito, Tomoya, Niu, Zhong-Ming, Li, Zhi-Pan, and Liang, Haozhao

Subjects
Nuclear Theory
Abstract

Based on the back-propagation neural networks and density functional theory, a supervised learning is performed firstly to generate the nuclear charge density distributions. The charge density is further calibrated to the experimental charge radii by a composite loss function. It is found that, when the parity, pairing, and shell effects are taken into account, about $96\%$ of the nuclei in the validation set fall within two standard deviations of the predicted charge radii. The calibrated charge density is then mapped to the matter density, and further mapped to the binding energies according to the Hohenberg-Kohn theorem. It provides an improved description of some nuclei in both binding energies and charge radii. Moreover, the anomalous overbinding in $^{48}$Ca implies the existence of an indispensable beyond-mean-field effect.

Published
2022
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3. $J/\psi$ associated production with a bottom quark pair from the Higgs boson decay in next-to-leading order QCD

Author

Pan, Xue-An, Niu, Zhong-Ming, Song, Mao, Zhang, Yu, Li, Gang, and Guo, Jian-You

Subjects
High Energy Physics - Phenomenology
Abstract

In this work, we investigate the next-to-leading order (NLO) QCD correction to $J/\psi$ associated production with a bottom quark pair from the Higgs boson decay within the nonrelativistic QCD framework. From numerical results, {we find that the decay width of process $H \rightarrow b+ J/\psi+\bar{b}$ at leading order (LO) mainly comes from the contribution of the Fock state $^3S^{(8)}_1$, and the NLO QCD corrections significantly enhance the decay width at LO accuracy by about 2 times. At NLO accuracy, the Fock states $^3S^{(8)}_1$ and $^3P^{(8)}_J$ channels give the main contribution, accounting for about $68\%$ and $29\%$ of the total decay width of $J/\psi$ associated production with a bottom quark pair at NLO accuracy from the Higgs boson decay, respectively. Considering the dominant contribution of color octet (CO) channels at NLO accuracy, the inclusive decay process $H\to b+J/\psi+\bar b + X$ has the potential to be found in future colliders with high energy/luminosity.} The study of $J/\psi$ associated production with a bottom quark pair from the Higgs boson decay is not only useful to study the mechanism of color-octet, but also to assist in the investigation of the coupling for the Higgs boson with the bottom quark., Comment: 11 pages, 6figures, Accepted by Phys. Rev. D

Published
2022
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4. Revisit prompt $J/\psi$ production in associated with Higgs Boson via gluon fusion at the LHC

Author

Pan, Xue-An, Niu, Zhong-Ming, Li, Gang, Zhang, Yu, Song, Mao, and Guo, Jian-You

Subjects
High Energy Physics - Phenomenology
Abstract

The production of charmonium associated with Higgs boson via gluon fusion has been investigated in Ref.[Phys.Rev.D66,114002(2002)], in which they considered the contribution of final Higgs boson radiation off the charm quark at tree level and found that this process is to be far too rare to be observable in any of the considered experiments. In this paper, the production of prompt $J/\psi$ associated with Higgs boson via gluon fusion at the 14 TeV LHC within the factorization formalism of NRQCD is revisited. After considering the contribution from the final Higgs boson radiation off the top quark in the loop, which is {more than} three orders of magnitudes over the charm quark at tree level, the production of prompt $J/\psi$ associated with Higgs boson has great potential to be detected. The prompt $J/\psi$ production includes the direct production and indirect production via radiative or hadronic decays of high excited charmonium states. For the direct $J/\psi + H$ production via gluon fusion loop-induced, the ${}^{3}S^{(8)}_1$ Fock state gives dominant contribution to the cross section, which is about 95\% to the total direct production. The indirect contribution via loop-induced is appreciable, since the summation of which from $\psi(2S) + H$, $\chi_{c1} + H$ and $\chi_{c2} + H$ is about $34\%$ to the total cross section of prompt $J/\psi + H$. While the indirect contribution from $\chi_{c0} + H$ is tiny, which can be neglected. With the great potential to be detected, prompt $J/\psi$ production in associated with Higgs boson can help us to further understand the mechanism of colour-octet, as well as can be useful to further investigate the coupling of the Higgs boson and fermion., Comment: 11 pages, 5 figures, 4 tables. Accepted by Physical Review D

Published
2021
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5. Measurements of $^{160}$Dy($p,\gamma$) at energies relevant for astrophysical $\gamma$ process

Author

Cheng, Hao, Sun, Bao-Hua, Zhu, Li-Hua, Kusakabe, Motohiko, Zheng, Yun, He, Liu-Chun, Kajino, Toshitaka, Niu, Zhong-Ming, Li, Tian-Xiao, Li, Cong-Bo, Wang, Dong-Xi, Wang, Meng, Li, Guang-Shuai, Wang, Kang, Song, Lin, Guo, Ge, Huang, Zhi-Yong, Wei, Xiu-Lin, Zhao, Fu-WeI, Wu, Xiao-Guang, Abulikemu, Yimuran, Liu, Jian-Cheng, and Fan, Ping

Subjects
Nuclear Experiment, Astrophysics - Solar and Stellar Astrophysics, Nuclear Theory
Abstract

Rare information on photodisintegration reactions of nuclei with mass numbers $A \approx 160$ at astrophysical conditions impedes our understanding of the origin of $p$-nuclei. Experimental determination of the key ($p,\gamma$) cross sections has been playing an important role to verify nuclear reaction models and to provide rates of relevant ($\gamma,p$) reactions in $\gamma$-process. In this paper we report the first cross section measurements of $^{160}$Dy($p,\gamma$)$^{161}$Ho and $^{161}$Dy($p,n$)$^{161}$Ho in the beam energy range of 3.4 - 7.0 MeV, partially covering the Gamow window. Such determinations are possible by using two targets with various isotopic fractions. The cross section data can put a strong constraint on the nuclear level densities and gamma strength functions for $A \approx$ 160 in the Hauser-Feshbach statistical model. Furthermore, we find the best parameters for TALYS that reproduce the A $\thicksim$ 160 data available, $^{160}$Dy($p,\gamma$)$^{161}$Ho and $^{162}$Er($p,\gamma$)$^{163}$Tm, and recommend the constrained $^{161}$Ho($\gamma,p$)$^{160}$Dy reaction rates over a wide temperature range for $\gamma$-process network calculations. Although the determined $^{161}$Ho($\gamma$, p) stellar reaction rates at the temperature of 1 to 2 GK can differ by up to one order of magnitude from the NON-SMOKER predictions, it has a minor effect on the yields of $^{160}$Dy and accordingly the $p$-nuclei, $^{156,158}$Dy. A sensitivity study confirms that the cross section of $^{160}$Dy($p$, $\gamma$)$^{161}$Ho is measured precisely enough to predict yields of $p$-nuclei in the $\gamma$-process., Comment: 12 pages,9 figures

Published
2021
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6. Probing invisible decay of dark photon at BESIII and future STCF via monophoton searches

Author

Zhang, Yu, Zhang, Wei-Tao, Song, Mao, Pan, Xue-An, Niu, Zhong-Ming, and Li, Gang

Subjects
High Energy Physics - Phenomenology, High Energy Physics - Experiment
Abstract

We propose to search the monophoton events at the BESIII detector and future Super Tau Charm Factory to probe the sub-GeV dark photon decay into lighter dark matter. We compute the cross section due to the dark photon associated a standard model photon production, and study the corresponding standard model irreducible/reducible backgrounds. By using the data about 17 fb$^{-1}$ collected at the BESIII detector since 2011, we derive new leading limits of the mixing strength $\varepsilon$, $\varepsilon\lesssim(1.1-1.6)\times 10^{-4}$, in the mass range of 0.04 GeV $\lesssim m_{A^\prime} \lesssim$ 3 GeV. With 30 ab$^{-1}$ data, STCF running at $\sqrt{s} = 2$ GeV, can probe $\varepsilon$ down to 5.1$\times 10^{-6}$ when $m_{A^\prime}=1$ GeV. For models of scalar and fermionic light thermal dark matter production via dark photon, we present the constrains on the dimensionless dark matter parameter $y=\varepsilon^2\alpha_D(m_\chi/m_{A^\prime})^4$ as function of the DM mass $m_{\chi}$ at BESIII and future STCF, conventionally assuming the dark coupling constant $\alpha_D=0.5$ and $m_{A^\prime}=3 m_{\chi}$. We find that BESIII can exclude model of scalar, Majorana, and pseudo-Dirac (with a small splitting) DM for the mass region 0.03$\sim$1 GeV, 0.04$\sim$1 GeV and 0.4$\sim$1 GeV respectively. For values $\alpha_D\lesssim 0.005$, combining the results from 2 GeV STCF with 30 ab$^{-1}$ data and BaBar, one can exclude the above three DM models in the mass region 0.001 GeV $\lesssim m_{\chi} \lesssim$ 1 GeV., Comment: 9 pages, 9 figures. Updated the recent NA64 results in Fig 5 and 6. Refs. are added

Published
2019
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7. Combination of complex momentum representation and Green's function methods in relativistic mean-field theory

Author

Shi, Min, Niu, Zhong-Ming, and Liang, Haozhao

Subjects
Nuclear Theory, Nuclear Experiment
Abstract

We have combined the complex momentum representation method with the Green's function method in the relativistic mean-field framework to establish the RMF-CMR-GF approach. This new approach is applied to study the halo structure of $^{74}$Ca. All the continuum level density of concerned resonant states are calculated accurately without introducing any unphysical parameters, and they are independent of the choice of integral contour. The important single-particle wave functions and densities for the halo phenomenon in $^{74}$Ca are discussed in detail., Comment: 6 pages, 7 figures

Published
2018
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8. Probing the resonance in the Dirac equation with quadruple-deformed potentials by complex momentum representation method

Author

Fang, Zhi, Shi, Min, Guo, Jian-You, Niu, Zhong-Ming, Liang, Haozhao, and Zhang, Shi-Sheng

Subjects
Nuclear Theory, Quantum Physics
Abstract

Resonance plays critical roles in the formation of many physical phenomena, and many techniques have been developed for the exploration of resonance. In a recent letter [Phys. Rev. Lett. 117, 062502 (2016)], we proposed a new method for probing single-particle resonances by solving the Dirac equation in complex momentum representation for spherical nuclei. Here, we extend this method to deformed nuclei with theoretical formalism presented. We elaborate numerical details, and calculate the bound and resonant states in $^{37}$Mg. The results are compared with those from the coordinate representation calculations with a satisfactory agreement. In particular, the present method can expose clearly the resonant states in complex momentum plane and determine precisely the resonance parameters for not only narrow resonances but also broad resonances that were difficult to obtain before., Comment: 10pages,7figures

Published
2016
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9. Probing the resonance of Dirac particle by the application of complex momentum representation

Author

Li, Niu, Shi, Min, Guo, Jian-You, Niu, Zhong-Ming, and Liang, Haozhao

Subjects
Nuclear Theory, High Energy Physics - Theory, Nuclear Experiment, Quantum Physics
Abstract

Resonance plays critical roles in the formation of many physical phenomena, and several methods have been developed for the exploration of resonance. In this work, we propose a new scheme for resonance by solving the Dirac equation in complex momentum representation, in which the resonant states are exposed clearly in complex momentum plane and the resonance parameters can be determined precisely without imposing unphysical parameters. Combining with the relativistic mean-field theory, this method is applied to probe the resonances in $^{120}$Sn with the energies, widths, and wavefunctions being obtained. Comparing with other methods, this method is not only very effective for narrow resonances, but also can be reliably applied to broad resonances., Comment: 6 pages, 5 figures

Published
2016
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10. Influence of binding energies of electrons on nuclear mass predictions

Author

Tang, Jing, Niu, Zhong-Ming, and Guo, Jian-You

Subjects
Nuclear Theory
Abstract

Nuclear mass contains a wealth of nuclear structure information, and has been widely employed to extract the nuclear effective interactions. The known nuclear mass is usually extracted from the experimental atomic mass by subtracting the masses of electrons and adding the binding energy of electrons in the atom. However, the binding energies of electrons are sometimes neglected in extracting the known nuclear masses. The influence of binding energies of electrons on nuclear mass predictions are carefully investigated in this work. If the binding energies of electrons are directly subtracted from the theoretical mass predictions, the rms deviations of nuclear mass predictions with respect to the known data are increased by about $200$ keV for nuclei with $Z, N\geqslant 8$. Furthermore, by using the Coulomb energies between protons to absorb the binding energies of electrons, their influence on the rms deviations is significantly reduced to only about $10$ keV for nuclei with $Z, N\geqslant 8$. However, the binding energies of electrons are still important for the heavy nuclei, about $150$ keV for nuclei around $Z=100$ and up to about $500$ keV for nuclei around $Z=120$. Therefore, it is necessary to consider the binding energies of electrons to reliably predict the masses of heavy nuclei at an accuracy of hundreds of keV., Comment: 5 pages, 2 figures

Published
2015
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11. The influence of the Coulomb exchange term on nuclear single-proton resonances

Author

Wang, Shu-Yang, Zhu, Zhong-Lai, and Niu, Zhong-Ming

Subjects
Nuclear Theory, Nuclear Experiment
Abstract

Nuclear single-proton resonances are sensitive to the Coulomb field, while the exchange term of Coulomb field is usually neglected due to its nonlocality. By combining the complex scaling method with the relativistic mean-field model, the influence of the Coulomb exchange term on the single-proton resonances is investigated by taking Sn isotopes and $N=82$ isotones as examples. It is found that the Coulomb exchange term reduces the single-proton resonance energy within the range of $0.4-0.6$ MeV, and lead to similar isotopic and isotonic trends of the resonance energy as those without the Coulomb exchange term. Moreover, the single-proton resonance width is also reduced by the Coulomb exchange term, whose influence generally decreases with the increasing neutron number and increases with the increasing proton number. However, the influence of the Coulomb exchange term cannot change the trend of the resonance width with respect to the neutron number and proton number. Furthermore, the influence of the Coulomb exchange term on the resonance width is investigated for the doubly magic nuclei $^{40}$Ca, $^{56,78}$Ni, $^{100,132}$Sn, and $^{208}$Pb. It is found that the Coulomb exchange term reduces the proton resonance width within $0.2$ MeV, whose magnitude depends on the specific nucleus and the quantum numbers of resonant states., Comment: 6 pages, 6 figures

Published
2015

12. Relativistic symmetry in deformed nuclei by similarity renormalization group

Author

Guo, Jian-You, Chen, Shou-Wan, Niu, Zhong-Ming, Li, Dong-Peng, and Liu, Quan

Subjects
Nuclear Theory, Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science, Nuclear Experiment, Quantum Physics
Abstract

The similarity renormalization group is used to transform a general Dirac Hamiltonian into diagonal form. The diagonal Dirac operator consists of the nonrelativistic term, the spin-orbit term, the dynamical term, and the relativistic modification of kinetic energy, which are very useful to explore the symmetries hidden in the Dirac Hamiltonian for any deformed system. As an example, the relativistic symmetries in an axially deformed nucleus are investigated by comparing the contributions of every term to the single particle energies and their correlations with the deformation. The result shows that the deformation considerably influences the spin-orbit interaction and dynamical effect, which play a critical role in the relativistic symmetries and its breaking., Comment: Some suggestions and comments are welcome

Published
2013

13. Resonant states and pseudospin symmetry in the Dirac Morse potential

Author

Liu, Quan, Niu, Zhong-Ming, and Guo, Jian-You

Subjects
Quantum Physics, Physics - Atomic Physics
Abstract

The complex scaling method is applied to study the resonances of a Dirac particle in a Morse potential. The applicability of the method is demonstrated with the results compared with the available data. It is shown that the present calculations in the nonrelativistic limit are in excellent agreement with the nonrelativistic calculations. Further, the dependence of the resonant parameters on the shape of the potential is checked, and the unusual sensitivity to the potential parameters is revealed. By comparing the energies and widths of the pseudospin doublets, well pseudospin symmetry is discovered in the present model. The relationship between the pseudospin symmetry and the shape of the potential is investigated by changing the Morse potential shaped by the dissociation energy, the equilibrium intermolecular distance, and the positive number controlling the decay length of the potential., Comment: Some literatures on the pseudospin symmetry are supplied and the paper will be published in Physical review A

Published
2013
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14. Resonant states of deformed nuclei in complex scaling method

Author

Liu, Quan, Guo, Jian-You, Niu, Zhong-Ming, and Chen, Shou-Wan

Subjects
Nuclear Theory, Nuclear Experiment, Quantum Physics
Abstract

We develop a complex scaling method for describing the resonances of deformed nuclei and present a theoretical formalism for the bound and resonant states on the same footing. With $^{31}$Ne as an illustrated example, we have demonstrated the utility and applicability of the extended method and have calculated the energies and widths of low-lying neutron resonances in $^{31}$Ne. The bound and resonant levels in the deformed potential are in full agreement with those from the multichannel scattering approach. The width of the two lowest-lying resonant states shows a novel evolution with deformation and supports an explanation of the deformed halo for $^{31}$Ne., Comment: 15 pages, 7 figures. arXiv admin note: text overlap with arXiv:0712.3087, arXiv:nucl-th/0403013 by other authors

Published
2012
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15. $\delta$ meson effects on neutron stars in the modified quark-meson coupling model

Author

Niu, Zhong-Ming and Gao, Chun-Yuan

Subjects
Nuclear Theory
Abstract

The properties of neutron stars are investigated by including $\delta$ meson field in the Lagrangian density of modified quark-meson coupling model. The $\Sigma^-$ population with $\delta$ meson is larger than that without $\delta$ meson at the beginning, but it becomes smaller than that without $\delta$ meson as the appearance of $\Xi^-$. The $\delta$ meson has opposite effects on hadronic matter with or without hyperons: it softens the EOSes of hadronic matter with hyperons, while it stiffens the EOSes of pure nucleonic matter. Furthermore, the leptons and the hyperons have the similar influence on $\delta$ meson effects. The $\delta$ meson increases the maximum masses of neutron stars. The influence of $(\sigma^*,\phi)$ on the $\delta$ meson effects are also investigated., Comment: 10 pages, 6 figures, 4 tables

Published
2008
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27. Measurements of 160Dy (p, γ) at Energies Relevant for the Astrophysical γ Process

Author

Cheng, Hao, primary, Sun, Bao-Hua, additional, Zhu, Li-Hua, additional, Kusakabe, Motohiko, additional, Zheng, Yun, additional, He, Liu-Chun, additional, Kajino, Toshitaka, additional, Niu, Zhong-Ming, additional, Li, Tian-Xiao, additional, Li, Cong-Bo, additional, Wang, Dong-Xi, additional, Wang, Meng, additional, Li, Guang-Shuai, additional, Wang, Kang, additional, Song, Lin, additional, Guo, Ge, additional, Huang, Zhi-Yong, additional, Wei, Xiu-Lin, additional, Zhao, Fu-WeI, additional, Wu, Xiao-Guang, additional, Abulikemu, Yimuran, additional, Liu, Jian-Cheng, additional, and Fan, Ping, additional

Published
2021
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32. Measurements of 160Dy (p, γ) at Energies Relevant for the Astrophysical γ Process.

Author

Cheng, Hao, Sun, Bao-Hua, Zhu, Li-Hua, Kusakabe, Motohiko, Zheng, Yun, He, Liu-Chun, Kajino, Toshitaka, Niu, Zhong-Ming, Li, Tian-Xiao, Li, Cong-Bo, Wang, Dong-Xi, Wang, Meng, Li, Guang-Shuai, Wang, Kang, Song, Lin, Guo, Ge, Huang, Zhi-Yong, Wei, Xiu-Lin, Zhao, Fu-WeI, and Wu, Xiao-Guang

Subjects
ENERGY level densities, NUCLEAR reactions, NUCLEAR models, GAMMA functions, STATISTICAL models, SUPERHEAVY elements, MAGNITUDE (Mathematics)
Abstract

Rare information on photodisintegration reactions of nuclei with mass numbers A ≈ 160 at astrophysical conditions impedes our understanding of the origin of p-nuclei. Experimental determination of the key (p, γ) cross sections has been playing an important role in verifying nuclear reaction models and providing rates of relevant (γ, p) reactions in the γ process. In this paper we report the first cross-section measurements of 160Dy(p, γ)161Ho and 161Dy(p, n)161Ho in the beam energy range of 3.4–7.0 MeV, partially covering the Gamow window. Such determinations are possible by using two targets with various isotopic fractions. The cross-section data can put a strong constraint on the nuclear level densities and gamma strength functions for A ≈ 160 in the Hauser–Feshbach statistical model. Furthermore, we find the best parameters for TALYS that reproduce the available A ∼ 160 data, 160Dy(p, γ)161Ho and 162Er(p, γ)163Tm, and recommend the constrained 161Ho(γ, p)160Dy reaction rates over a wide temperature range for γ process network calculations. Although the determined 161Ho(γ, p) stellar reaction rates at the temperature of 1 to 2 GK can differ by up to one order of magnitude from the NON-SMOKER predictions, it has a minor effect on the yields of 160Dy and accordingly the p-nuclei, 156,158Dy. A sensitivity study confirms that the cross section of 160Dy(p, γ)161Ho is measured precisely enough to predict yields of p nuclei in the γ process. [ABSTRACT FROM AUTHOR]

Published
2021
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50. Uncertainties of nucleo-chronometers from nuclear physics inputs

Author

Niu Zhong-Ming, Wang Feng, Sun Bao-Hua, Gong Xiao-Bo, and Zhang Wei-Hong

Subjects
Physics, Nuclear physics, Marine chronometer, law, General Physics and Astronomy, law.invention
Abstract

The influences of uncertainties in nuclear physics inputs on the Th/U, Th/Hf, Th/Eu, Th/Os, Th/Ir nucleo-chronometers are investigated in the framework of the classical r-process approach. A Monte-Carlo method is used to evaluate the age uncertainty originating from neutron separation energies for each nuclear mass model. It is found that the deduced age uncertainty for Th /U can be up to 1.66 Ga, and for the three chronometers, Th/Eu, Th/Os, Th/Ir, the uncertainties are 5.15 Ga, 3.93 Ga and 3.95 Ga, respectively. The recently proposed chronometer, Th/Hf, shows a clear model dependence, while Th/Os and Th/Ir chronometers tend to overestimate the age of Universe. Taking into account the uncertainties in nuclear physics inputs and observations, an up-to-date age estimation for the universe with the Th/U chronometer is 14.1? 3.8 Ga.

Published
2012
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