Analytic expression dependent of microscopic parameters on the Young modulus of metallic single crystal;

According to the crystal model of atomic physics and by using a new theory as well as an interaction potential between atoms, an analytical expression, which is represented by microscopic physical quantities, for Young's modulus of metallic single crystal is given.

A set of experiments designed to study the anisotropic spatial dependence of second harmonic generation (SHG) from the surface of single crystal metals were presented.

The application of bayesian-regularization neural network in prediction of the cohesive energy of metallic crystalloid;

The obtained results are quite consistent with the experimental values,which proves the universality of the potential-energy function and the reliability of calculating the cohesive energy of metallic crystalloid in this way.

The elastic modulus of inert element crystal and metal crystal with fcc structure depended on pressure in L-J and Morse interaction are obtained respectively.

A practical and effective whole plate processing technology was proposed for Ge single crystal pieces based on the physical features of Ge single crystals and lots of experiments.