Quantum 1/f noise https://en.wikipedia.org/wiki/Quantum_1/f_noise
The *conventional Q1/fE* represents 1/f fluctuations caused by bremsstrahlung, decoherence and interference in the scattering of charged particles off one another, in tunneling or in any other process in solid state physics and in general. The subatomic particles flux related to decay, particle creation(electron/muon), scattering and interference produced by Ultra dense hydogen fits this criteria nicely. On Sat, Mar 10, 2018 at 3:11 PM, JonesBeene <jone...@pacbell.net> wrote: > > > BTW - Wouldn’t it be a hoot if muons showed up on a particular detector as > 1/f^2 noise ?? > > > > > > > > > > Nigel, > > > > Since you noticed the fit initially, were you looking for it based on > phenomena from another field ? > > > > I see from Alan’s posting that the context is no mystery – except to > someone who was not paying attention to every detail of an excellent > presentation <g> > > However, I think Nigel is looking for deeper significance. Universal > theories of pink noise are incomplete. According to Wiki, the Tweedie > hypothesis has been proposed to explain the genesis of pink noise on the > basis of a mathematical convergence theorem related to statistical analysis > in many systems, yet … this signal is not pink noise per se. In general > the spectrum of pink noise is 1/f for what are said to be > one-dimensional signals. > > Perhaps two-dimensional signals have a weaker power spectrum which is the > reciprocal of f^2 ? At any rate, pink noise would be an obvious place to > start a search for statistical significance. > > > > >
