[Vo]:Re: Slow quantum packets can tunnel thru high Coulomb barrier

2014-02-18 Thread Bob Cook 
Axil—Is this just the uncertainty principle in action?

Bob Cook

From: Axil Axil 
Sent: Monday, February 17, 2014 10:38 PM
To: vortex-l 
Subject: Re: [Vo]:Slow quantum packets can tunnel thru high Coulomb barrier

More...

The spin produced by slow light will also be squeezed. When the position of the 
spin of slow light is highly confined, its magnitude will be wide-ranging. For 
example, if the spin of a squeezed light packet averages at 5 tesla, its 
fluctuation may amplify the maximum power that it can produce in orders of 
magnitude by 10 or 20 times based on its slowness.

Coulomb barrier screening is directly related to the strength of the EMF field 
which can grow very large when light is squeezed.




On Tue, Feb 18, 2014 at 1:19 AM, Axil Axil janap...@gmail.com wrote:

  How do we slow light down…we squeeze it. Even though this slow light is 
restricted in position, it is wide-ranging in momentum. Small optical cavities 
slow down light but in doing so, this squeezing makes it very potent in 
momentum.



  .




  On Mon, Feb 17, 2014 at 11:27 PM, pagnu...@htdconnect.com wrote:

New Arxiv.org paper related to LENR -

Tunneling of slow quantum packets through the high Coulomb barrier

ABSTRACT:
We study the tunneling of slow quantum packets through a high Coulomb
barrier. We show that the transmission coefficient can be quite different
from the standard expression obtained in the plane wave (WKB)
approximation (and larger by many orders of magnitude), even if the
momentum dispersion is much smaller than the mean value of the momentum.

http://arxiv.org/abs/1402.3837

Slow packets here refer to relatively narrow packets whose center moves
at a relatively slow velocity.  Narrow wave packets can contain high
momentum components.

I believe that the following 2013 presentation made by Allan Widom -
Electro-Weak and Electro-Strong Views of Nuclear Transmutations
  vglobale.it/public/files/2013/Cirps-Widom.pdfý
- points out a similar effect.
I.E, on slide 12 Electron Mass Renormalization I

He notes that Slowly Varying u(x) and Quickly Varying S(x) can
represent an wave packet with much more energy than a simple observation
of its envelop u(x) would lead one to expect if its phase S(x) is
rapidly oscillating within the a slow (even almost static) envelop.

-- Lou Pagnucco

[Vo]:Re: Slow quantum packets can tunnel thru high Coulomb barrier

2014-02-18 Thread Bob Cook 
Axil-

The squeezing of a H molecule or a proton inside a Ni body-centered cubic cell 
may change  the angular momentum of the trapped entity and facilitate spin 
coupling  with one or more  different Ni nuclei, and transmutation to a lower 
energy,  if such a state is available with the particles  in the system.

Bob
From: Axil Axil 
Sent: Monday, February 17, 2014 10:38 PM
To: vortex-l 
Subject: Re: [Vo]:Slow quantum packets can tunnel thru high Coulomb barrier

More...

The spin produced by slow light will also be squeezed. When the position of the 
spin of slow light is highly confined, its magnitude will be wide-ranging. For 
example, if the spin of a squeezed light packet averages at 5 tesla, its 
fluctuation may amplify the maximum power that it can produce in orders of 
magnitude by 10 or 20 times based on its slowness.

Coulomb barrier screening is directly related to the strength of the EMF field 
which can grow very large when light is squeezed.




On Tue, Feb 18, 2014 at 1:19 AM, Axil Axil janap...@gmail.com wrote:

  How do we slow light down…we squeeze it. Even though this slow light is 
restricted in position, it is wide-ranging in momentum. Small optical cavities 
slow down light but in doing so, this squeezing makes it very potent in 
momentum.



  .




  On Mon, Feb 17, 2014 at 11:27 PM, pagnu...@htdconnect.com wrote:

New Arxiv.org paper related to LENR -

Tunneling of slow quantum packets through the high Coulomb barrier

ABSTRACT:
We study the tunneling of slow quantum packets through a high Coulomb
barrier. We show that the transmission coefficient can be quite different
from the standard expression obtained in the plane wave (WKB)
approximation (and larger by many orders of magnitude), even if the
momentum dispersion is much smaller than the mean value of the momentum.

http://arxiv.org/abs/1402.3837

Slow packets here refer to relatively narrow packets whose center moves
at a relatively slow velocity.  Narrow wave packets can contain high
momentum components.

I believe that the following 2013 presentation made by Allan Widom -
Electro-Weak and Electro-Strong Views of Nuclear Transmutations
  vglobale.it/public/files/2013/Cirps-Widom.pdfý
- points out a similar effect.
I.E, on slide 12 Electron Mass Renormalization I

He notes that Slowly Varying u(x) and Quickly Varying S(x) can
represent an wave packet with much more energy than a simple observation
of its envelop u(x) would lead one to expect if its phase S(x) is
rapidly oscillating within the a slow (even almost static) envelop.

-- Lou Pagnucco