Keep in mind that there is a significant seasonal variation in emissions from the sun, such as neutrinos which can easily penetrate into any experimental apparatus on earth. This is simple to rationalize: the sun emits massive numbers of neutrinos, which pass through areas at a shallower angle in the winter and thus have lower flux.
Occam’s razor would suggest you should be extremely skeptical of any suggestion that it’s more likely that something besides neutrinos is responsible for this effect, even if the mechanism hasn’t been figured out yet.
This is interesting, but I don’t understand your questions at end. What simulation theory are you talking about?
By the way, one of your links is broken and should be http://file.scirp.org/pdf/OPJ_2016063013301299.pdf .
Keep in mind that there is a significant seasonal variation in emissions from the sun, such as neutrinos which can easily penetrate into any experimental apparatus on earth. This is simple to rationalize: the sun emits massive numbers of neutrinos, which pass through areas at a shallower angle in the winter and thus have lower flux.
By far the first thing to rule out would be neutrinos affecting nuclear decay, before we start wondering about dark matter or anything like that. Everyone in the business has thought of this, of course: http://physicsworld.com/cws/article/news/2008/oct/02/the-mystery-of-the-varying-nuclear-decay .
Occam’s razor would suggest you should be extremely skeptical of any suggestion that it’s more likely that something besides neutrinos is responsible for this effect, even if the mechanism hasn’t been figured out yet.