• Portable X-Ray Instrumentation
• Teaching Laboratories
• Instrument Calibration
• Miniature size - 0.6" dia x 0.4" 15 mm dia x 10 mm
• Low Power: <300 mW
• Runs on a standard 9 V battery
• Variable end point energy: up to 35 kV
• Peak X-Ray flux: 108 photons per second
(equivalent to a 2 mCi source)
• Solid state: Pyroelectric Crystal
• No radioactive sources
The COOL-X is a novel, miniature X-ray generator which uses a pyroelectric crystal to generate energetic electrons that produce X-rays in the target material (Cu). The hermetically sealed package has a thin beryllium window which allows the X-rays to be transmitted. The COOL-X does not use radioisotopes or high power X-ray tubes. It is a self contained, solid state system which generates X-rays when the crystal is thermally cycled.
The COOL-X is unique, and should not be compared with other X-ray tubes. It is thermally cycled between 2 to 5 minutes, and does not produce a constant flux of X-rays. The X-ray flux varies throughout the cycle and may vary from cycle to cycle, see Figure 4. The use of the COOL-X in practical applications will challenge the user's imagination!
Theory of operation:
When heated, a pyroelectric crystal exhibits spontaneous decrease of polarization. Hence, as the temperature increases, an electric field develops across the crystal. For a specific crystal orientation (-Z face pointing to the target), the top surface of the crystal gets positively charged and attracts electrons from the low pressure gas in the environment. As the electrons impinge on the surface of the crystal they produce characteristic x-rays (Ta) as well as bremsstrahlung x-rays (see Figure 1).
When the cooling phase starts, the spontaneous polarization increases, and the electrons from the top surface of the crystal are accelerated towards the Cu target which is at ground potential. At this part of the cycle Cu characteristic x-rays are produced, as well as bremsstrahlung x-rays (see Figure 2). When the crystal temperature reaches its low point, the heating phase starts again. The cycle time of the COOL-X can be varied from 2 to 5 minutes. Figure 3 shows the typical x-ray spectrum of the COOL-X obtained from the sum of 300 cycles with the dominant 8 keV peak and the bremsstrahlung continuum. Figure 4 shows a typical COOL-X output count-rate as a function of time for several heating and cooling phases. The X-ray flux varies throughout the cycle and may vary from cycle to cycle (see Figure 5). Ref: J.D. Brownridge and S. Raboy "Investigations of pyroelectric generation of X-ray" Journal of Applied Physics, Vol. 86, No. 1, 1 July 1999