Radiation detector

The invention claimed is: 1. A method for detecting radon comprising: obtaining a radon detecting device having a chamber holding a fluid; placing a radon contaminated material in contact with the fluid by bubbling radon contaminated air thru a second fluid and mixing the second fluid with the chamber fluid, or thru the chamber fluid; placing the fluid in a tensioned metastable state using an acoustic sound at alpha particle detection tension so that cavitation events occur in the fluid when alpha particles are present, and detecting radon. 2. The method for detecting radon of claim 1 wherein the chamber fluid is degassed. 3. The method for detecting radon of claim 1 further comprising placing the detecting device in a space in which radon detection is needed. 4. The method for detecting radon of claim 1 further comprising placing the detecting device in a laboratory space and detecting radon. 5. The method for detecting radon of claim 1 further comprising placing the detecting device in a dwelling in which radon detection is needed. 6. A radon detecting device comprising a chamber holding a fluid in a tensioned metastable state, wherein the chamber contains a fluid at between about 4 to about 9 barr of pressure at an alpha particle detection tension so that cavitation events occur in the fluid when alpha particles are present, and having a radon contaminated material in contact with the chamber fluid. 7. The detecting device of claim 6 wherein the device can measure radon at concentrations in the range of at least about 0.1 pCi/L in air and at and about 300 pCi/L in water. 8. The detecting device of claim 6 wherein the chamber fluid includes acetone and isopentane. 9. The detecting device of claim 6 wherein the chamber fluid includes acetone, isopentane and water. 10. A method for detecting radon comprising: obtaining a radon detecting device having a chamber holding a fluid; filtering a radon contaminated material; placing the radon contaminated material in contact with the fluid; placing the fluid in a tensioned metastable state using centrifugal motion at alpha particle detection tension so that cavitation events occur in the fluid when alpha particles are present; and detecting radon. 11. The method for detecting radon of claim 10 further comprising placing a radon contaminated material in contact with the chamber fluid by allowing radon contaminated air to diffuse into the chamber fluid. 12. The method for detecting radon of claim 10 further comprising filtering radon contaminated fluids prior to adding them to the chamber fluid and removing radon progeny. 13. The method for detecting radon of claim 10 further comprising precompressing the chamber fluid. 14. The method for detecting radon of claim 10 further comprising cooling the chamber fluid and bubbling ambient air through the chamber fluid to collect radon. 15. The method for detecting radon of claim 10 further comprising cooling the chamber fluid and sparging ambient air through the chamber fluid to collect radon.