How do you know that a faraday cage is part of the test? On Thu, Oct 2, 2014 at 5:25 PM, Bob Higgins <[email protected]> wrote:
> The 3.6 keV x-ray photons are easily detected with an x-ray spectrometer > such as the Amptek X-123SDD at > http://www.amptek.com/products/x-123sdd-complete-x-ray-spectrometer-with-silicon-drift-detector-sdd/ > . See their chart at this URL for the different window options that will > easily allow detection down to 1 keV: > http://www.amptek.com/products/c-series-low-energy-x-ray-windows/ . I am > hoping to get one of these some day. > > The bigger issue is that not much will make it out of the hotCat even if > that is the primary channel for conveying the heat. > > In the case of RF, I would expect almost none to escape the hotCat because > the reaction is in a Faraday cage. The RF that could penetrate would have > to be below 1 kHz. > > Bob Higgins > > On Thu, Oct 2, 2014 at 1:44 PM, Jones Beene <[email protected]> wrote: > >> >> Hoped for prediction – but unlikely due to technical limitations: >> evidence of the signature x-ray indicative of DDL/dark matter, in the range >> of 3.6 keV. >> >> >> >> Since there is no commercial meter for this spectrum, the x-ray would >> have to show up in some other clever way, such as film exposure – thus it >> is unlikely. >> >> >> >> Jones >> >> >> >> >> >> >> > >
