Display systems play an important role in many aspects of today life including numerous scientific fields. In recent decades there has been an increasing development in the technology of displaying devices and two dimensional displaying devices are gradually replaced by their 3D counterparts. Adding the third dimension to images and using other display media are two big steps to be taken in this field. Therefore this thesis focuses on these two challenging problems. First the methods of creating 3D images such as Stereoscopy Holography are studied. Then various display media and their applications are introduced. We address theoretical aspects of display devices and nonlinear optical effects of different, specifically fluid, media. We emphasize on Acousto-Optic Effect (AOE) due to bulk acoustic waves in traarent fluids. According to AOE a noble idea which states that almost any kind of bulk acoustic wave patterns can be shaped in a fluid medium with proper stimulation of 2D continuous transducer array is introduced. Also effects of complexity, as well as, different parameters are studied for arbitrary acoustic patterns. Accordingly, we reach conclusions which do not suffer from limitations of classic displays and can picture nearly any kind of light dissipation by the means of some properly designed 3D acoustic pattern. Finally a new method named "Chain refractions method" is presented for designing a suitable 3D acoustic pattern for a predetermined light dissipation pattern. At last some acoustic patterns are designed and modeled to produce the required angular dissipation of direct light beam in a traarent fluid medium. Obviously these patterns will cause the direct beam to be seen as an illuminating dot at an arbitrary point in the fluid and therefore an image is created by putting these dotes beside each other.