The wave function and probability density are obtained by the creation and annihilation operators of the invariant operator.

Using the canonical transformation and Lewis and Riesenfeld quantum invariant theory,the excat wave function of a harmonic oscillator with time-dependent coefficient of damping is obtained.

Using the Lewis-Riesenfeld′s quantum invariant theory,the Lewis-Riesenfeld phases for a time-dependent frequency harmonic oscillator,which is confined in an infinite well with a moving wall,are calculated.

This paper reviews major achievements in recent years on geometric algebras and advanced invariant computing,with emphasis upon the background,guideline and estab- lishment of conformal geometric algebra and its important contributions to the development of advanced invariants in classical geometry.

On the basis of the quantum invariant theory, we study the light propagating in the general optical fiber and obtain the exact solution of the Schrodinger-like equation for the sustem .

On the basis of the quantum invariant theory, we study the double quantum wells and find the exact solution for the system.

The method of constructing the invariant hermitian operators of time-dependent linear coupling quantum systems is introduced.