- 53 - 8. Future program Any future program must include the securing of all experimental results thought the utilisation of the strictest of standards. This concretely means the application of the torsion scale in a vacuum environment in order to exclude all air movements, whereby the vacuum chamber must serve as the screening agent against external electro-magnetic radiation as far as possible. The repetition of the previously carried out series of experiments under such an improved arrangement would then, with a positive result, connote the irrefutable confirmation of the described effects. These examinations should also be expanded over a greater range of frequencies than before. The frequency range of about 30 megahertz to 1.4 gigahertz has been examined. The long-tern effects mentioned in chapter 5 seemed to indicate that a strong electro-magnetic influence from the sun is possible. The examined frequency range must therefore be extended to include the microwave spectrum of the sun, that is to say, to around 20 gigahertz. Apart from the measurement the dynamic effects with a torsion scale, it generally coincides with the application of high frequency spectroscopy with suitable apparatuses and detection methods. Whereby the absorption of high frequency energy in the probe must be investigated with appropriate methods. Furthermore, a receiver of electro-magnetic waves must be at one’s disposal, one that can verify the weakest of signals from amongst the thermal noise. Such an instrument can be utilised with the help of insights from the field of nuclear magnetic resonance spectroscopy. Certain probes utilised in nuclear magnetic resonance spectroscopy apparently represent resonance systems with half-value levels of up to 1 Hertz, whereby the thermal interference, that would connote a heightened band width, would average out in regards to time and space.
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