This is off topic but I have speculated that the eye creates a very small amount of light so it might be place where spontaneous hawking radiation occurs. Harry
On Sat., Aug. 24, 2019, 8:49 p.m. Axil Axil, <[email protected]> wrote: > Rossi said that the SL reactor produces photons in the 100 to 200 nm > range. This is the photon energy that resolves when Hawking's radiation is > extracted from the vacuum. Those photons have negative frequency. > > As I have repeated a few time: SK energy does not come from transmutation > but from Hawking radiation. Rossi has found how to minimize transmutation > and produce energy by extracting photons from the vacuum. Photons extracted > from the vacuum have negative frequency. This means that they are in the UV > or EUV energy frequency range. > > > See: > > Testing Hawking radiation in laboratory black hole analogues > > https://phys.org/news/2019-... > <https://disq.us/url?url=https%3A%2F%2Fphys.org%2Fnews%2F2019-01-hawking-laboratory-black-hole-analogues.html%3ANKcjkIXomS-41t6Jno1skGW4PaA&cuid=2168707> > > In their study, Leonhardt and his colleagues made light out of positive > and negative frequencies. Their positive-frequency light was infrared, > while the *negative-frequency one was ultraviolet*. The researchers > detected both of them and then compared them with Hawking's theory. > > > > > On Sat, Aug 24, 2019 at 7:09 PM <[email protected]> wrote: > >> Hi, >> >> Rossi seems to think the Compton wavelength of the electron is important, >> and >> Proton21 uses 600 keV electrons. >> Perhaps 511 keV is the minimal energy needed by an electron to convert a >> proton >> into an anti-proton (pair -production??). >> >> If so then the theoretical maximum energy gain per reaction is a factor >> of >> 2 x (mass of proton) / (mass of electron) = 3672. >> >> That ought to be enough to cover conversion inefficiencies. ;) >> >> It also has the great advantage that a star ship wouldn't need to carry >> around >> massive amounts of dangerous anti-matter, but rather could make what they >> need >> on-the-fly from ordinary matter. In fact they may even be able to harvest >> hydrogen from interstellar space to use as fuel, ensuring that the >> initial fuel >> load would only need to be sufficient to get them up to a speed where >> they can >> collect it as fast as they use it. >> >> Combine this with a reactionless drive, and one has a near light speed >> capability to reach the stars. :) >> >> Regards, >> >> >> Robin van Spaandonk >> >> local asymmetry = temporary success >> >>
