So which gammas are emitted in the first case, and what would you expect
if the reaction were 7-Li + H* --> 8-Be --> 2 4-He?
H* is p+e that get both added. This was my first key finding about 3 years ago.
You can look this explanation (gammas) up in my very old writeup about
LENR or in the Lipinski patent.
This is a very good teaching example and I would prefer that everybody
interested in real LENR does this as an exercise. It is absolute key to
know/understand the details about H*, D*.
Juerg
Am 20.07.19 um 22:49 schrieb mix...@bigpond.com:
In reply to Jürg Wyttenbach's message of Sat, 20 Jul 2019 18:09:51 +0200:
Hi,
[snip]
Two simple samples:
7-Li + H* --> 8Li --> 8-Be --> 2 4-He. (Lipinski reaction)
105Pd +D* -->107Cd --> 107Ag classic P&F.
You can identify the decay paths by the typical gammas emitted.
So which gammas are emitted in the first case, and what would you expect if the
reaction were 7-Li + H* --> 8-Be --> 2 4-He?
...and how do you know that the first reaction isn't really:-
7-Li + D* --> 8Li (neutron transfer) + p (wanders off) --> 8-Be --> 2 4-He,
making use of trace D in the H?
Does the reaction rate change if you incrementally add D to the H?
To learn about this use.
https://www-nds.iaea.org/relnsd/vcharthtml/VChartHTML.html
Most of the time the A+D* reaction is followed by a beta+ decay. But
there are some exceptions
...so you detect pairs of positron annihilation gammas?
Regards,
Robin van Spaandonk
local asymmetry = temporary success
--
Jürg Wyttenbach
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