Sonoluminescence (Creating light with sound)
	Sonoluminescence is the process where light is created through capturing an air bubble in a flask of water with carefully controlled acoustics. The effect was discovered accidentally (like most major discoveries) in 1934 by Henzel & Schultes, German physicists at the University of Cologne. A spherical flask is filled with water, then sound waves are passed through it which focus at the flask's center. An air bubble, injected with a syringe, is then forced toward the flask's center. Trapped there, the sound waves are adjusted further until they are in resonance with both the flask and the bubble. At this point the bubble collapses, but only so far before the pressure inside grows from the compression, stopping the collapse and forcing it to re-expand to its original size. This entire process occurs more than a quarter-million times per second. Each time, the super-compressed air reaches temperatures hotter than the corona of the sun. It is too coincidental that the sonoluminescent light looks like a star. This work conceptually ties together several of my other projects. Other scientists, with more elaborate setups than I, have found that water is the only liquid that this phenomenon occurs in, and when the water is cooled to 0° Celsius it's light increases by a factor of 200. As we shall see later this is important to my work with Schauberger. The other link is to my work with Reich and orgone devices. Reich considered air the key element in the transmittance of the orgone and in sonoluminescence it has been found that only natural air (with it variety of elements) will produce any significant amount of light.