My apologies.
Regards,
Robin van Spaandonk
local asymmetry = temporary success
PS - another more mundane explanation is that in common with all beta decays,
occasionally (nearly) all the energy is carried away by the anti-neutrino,
leaving the electron with so little that it remains combined with the proton as
an ordinary ground state Hydrogen atom, thus evading detection in
In reply to Jones Beene's message of Sat, 1 Dec 2018 15:34:17 + (UTC):
Hi,
[snip]
>This "second type of neutron" whether it is ultra low momentum or not, would
>be largely indistinguishable from LENR dense hydrogen but with a variation in
>lifetime. It would not be the exact UDH of Holmlid,
Oops. should be 6 quarks and 6 antiquarks in the Standard Model - anyway, no
apparent problem AFAIK
From: Jones Beene
At least one of the researchers suggests the dark matter particle is related to
an antineutron. An antineutron is composed of 3 antiquarks.
There are 6 quarks, 3 of
At least one of the researchers suggests the dark matter particle is related to
an antineutron. An antineutron is composed of 3 antiquarks.
There are 6 quarks, 3 of which are antiquarks in the Standard Model, no? Where
is the problem?
From: "bobcook39...@hotmail.com" Where did the
I must immediately retract everything here, where embarrassingly I have
either made measurement errors made by improper wire connections, but
investigations are ongoing about what occurred on these videos, whereby I am
Unable to duplicate those shown conditions.
I do not actually
Jones—
Where did the model of “antiquarks” come from; Is that your conjecture?
The antiquark thesis would seem to suggest that the Standard Model may be
getting somemore primary particles to add to its stable.
A sterile antineutron may not be too sterile around regular neutrons. The idea
of
I have a simple demo video uploaded at uTube and linked to my app.
https://youtu.be/nsjN2aWNWTY
Frank Znidarsic
A good case (but preliminary)is being made in several physics Labs around the
World, involving the characterization of a dark matter particle which is both
common and related to the neutron, but sterile and slightly lower in mass. In
fact, it appears that about 1% of any neutron beam from any
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