An interaction between electron and photon.
“ . . when there is a change of state the electron either releases
or absorbs a photon and its location changes from one discrete
energy pattern to another discrete energy pattern around the nucleus.
. . . . these things,
they are very well explained by the standard model of physics”
/ from an email /
==..
How can an electron ( slower than c ) emit photon at c=1?
==.
Book:
' Now take the electron. Even if its velocity is close to that
of light – 10^10 cm/s – it will have a momentum of only
about 10^-17 g cm/s. The gamma photon used for
illumination has a very short wavelength ( say, 6 10^13 cm)
and a momentum of 10^-14, which is thousands of times that
of the electron. So, when a photon hits an electron, it is like
a railway train smashing into a baby- carriage.’
/ Book: ABC’s of quantum mechanics. By V. Rydnik. Page 98-99. /
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This is “very well explained by the standard model of physics” !! ??
Opinions, please.
===========,,,,
An interaction between electron and photon.
Re: An interaction between electron and photon.
The interaction between electrons is doing by quantum of light .socratus wrote:An interaction between electron and photon.
“ . . when there is a change of state the electron either releases
or absorbs a photon and its location changes from one discrete
energy pattern to another discrete energy pattern around the nucleus.
. . . . these things,
they are very well explained by the standard model of physics”
/ from an email /
==..
How can an electron ( slower than c ) emit photon at c=1?
==.
Book:
' Now take the electron. Even if its velocity is close to that
of light – 10^10 cm/s – it will have a momentum of only
about 10^-17 g cm/s. The gamma photon used for
illumination has a very short wavelength ( say, 6 10^13 cm)
and a momentum of 10^-14, which is thousands of times that
of the electron. So, when a photon hits an electron, it is like
a railway train smashing into a baby- carriage.’
/ Book: ABC’s of quantum mechanics. By V. Rydnik. Page 98-99. /
==. ..
This is “very well explained by the standard model of physics” !! ??
Opinions, please.
===========,,,,
/ Today’s opinion. /
#
The interaction between quantum of light and atom.
A simple atom is : electron + proton + empty space (!?).
One of four things can be happened:
1
The photon gives up its energy to an electron located in the atom.
Armed with this extra energy, the electron is able to move to
a higher energy level. ( and the photon disappears - where is photon now ? )
/ In this situation, when a photon hits an electron, it is like
a railway train smashing into a baby- carriage.’/
2
A gamma photon with much more energetic would strongly kick
the electron out of the atom
(and might even produce electron/positron pairs in the process).
/ In this situation, when a photon hits an electron, it is like
a railway train smashing into a baby- carriage.’/
3
The photon gives up its energy to the proton .
Proton is about 2000 times heavier than electron.
Maybe in this situation the poor photon is smashing now . . . .
. . . . and it will be hard to him to radiate back.
4 .
The empty substance (!?) allows the photon to pass through unchanged.
Known as transmission, this happens because the photon doesn't
interact with any electron or proton and continues its journey until
it interacts with another object.
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All four scenario are speculative because we don’t know
what photon and electron are and where the proton mass come from.
== ….
P.S.
1900, 1905, 1913
Planck, Einstein and Bohr found the energy of electron as: E=h*f.
1916
Sommerfeld found the formula of electron : e^2=ah*c,
1928
Dirac found two more formulas of electron’s energy:
+E=Mc^2 and -E=Mc^2.
According to QED in interaction with vacuum electron’s
energy is infinite: E= ∞
The energy of electron in the simplest atom is: E= - me^4/ 2h*^2 = -13,6 eV
The negative mark of energy shows that electron is tied in atom.
Questions.
Why does simplest particle - electron have six ( 6 ) formulas ?
What is interaction between them?
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Re: An interaction between electron and photon.
As Richard Feynman wrote in 1985 :
‘ . . .the interaction between light ( electromagnetic fields ) and matter is strange.’
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‘ . . .the interaction between light ( electromagnetic fields ) and matter is strange.’
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