nuclear energy 
Strategic position and development prospects of nuclear energy in China


PWRFBR with closed fuel cycle for a sustainable nuclear energy supply in China


From the thermal reactor to the fast reactor and then to the fusion reactor; this is the threestep strategy that has been decided for a sustainable nuclear energy supply in China.


Today, in view of a sustainable nuclear energy production, development of advanced reactors reproposes the choice of innovative fuel cycle concepts, in a context of greater expectations and more stringent requirements.


Such systems are used in satellite communications, nuclear energy, and defense electronics.


The sense of NS rotation is a factor that strongly affects the observed ratio of nuclear energy release during bursts to gravitational energy release between bursts in Xray bursters.


A new form of the nuclear energydensity functional for describing the groundstate properties of finite nuclei up to the drip lines and beyond is proposed.


Vysotskiet al., the T1/2 value must increase if a γactive nucleus is surrounded by many identical groundstate nuclei, because these distort the spectrum of electromagnetic vacuum oscillations near the nuclear energy level.


New formulas for calculating the Coulomb and the nuclear energy of deformed nuclei are obtained within this approach.


The 5MW low temperature nuclear heating reactor (NHR5) is a new and advanced type of nuclear reactor developed by Institute of Nuclear Energy Technology (INET) of Tsinghua University of China in 1989.


Attempts to provide unlimited power support using radio transmission, nuclear energy etc.


Nuclear energy density functionals constrained by lowenergy QCD


A microscopic framework of nuclear energy density functionals


A recently introduced relativistic nuclear energy density functional,


Depleted uranium (DU) is a byproduct of the enrichment process of uranium for its more radioactive isotopes to be used in nuclear energy.


We furthermore investigate the effects of the NNcontact interaction on the $(\mathop{\nabla}\limits^{\to} \rho)^2$term in the nuclear energy density functional ${\cal E}[\rho,\tau]$.


Physik211, 195 (1968)] are revised: the nuclear energy changes within an isomultiplet, so that the change in the charge radius cannot be derived from the energy difference.


Resonance strengths, branching ratios and mean lifetimes of nuclear energy levels in23Na


It is shown thus that the leptodermous expansion of the nuclear energy possesses the correct largeA limit and due to the presence of exponential terms the correct smallA limit as well.


Fluctuation properties have been analyzed for a large collection of lowlying nuclear energy levels, with emphasis on the nearestneighbor spacing distributions.

