And the key to strong coupling is a strong magnetic (B) field and appropriate 
resonances to change coherent system energy and angular momentum states IMHO.  
The SPP's suggested are the key to the magnetic field and coupling to the 
many-body coherent system.


Bob Cook


________________________________
From: Axil Axil <janap...@gmail.com>
Sent: Thursday, August 25, 2016 12:01 PM
To: vortex-l
Subject: [Vo]:The key to LENR is strong coupling between the hydrogen atom and 
light.

sciencedaily.com/releases/2016/08/160822152626.htm<https://www.sciencedaily.com/releases/2016/08/160822152626.htm>

For more detail see as follows:

arxiv.org/pdf/1604.08297v1.pdf<https://arxiv.org/pdf/1604.08297v1.pdf>

Abstract

Nonperturbative coupling of light with condensed matter in an optical cavity is 
expected to reveal a host of coherent many-body phenomena and states [1-7]. In 
addition, strong coherent light-matter interaction in a solid-state environment 
is of great interest to emerging quantum-based technologies [8, 9]. However, 
creating a system that combines a long electronic coherence time, a large 
dipole moment, and a high cavity quality (Q) factor has been a challenging goal 
[10-13]. Here, we report collective ultrastrong light-matter coupling in an 
ultrahigh-mobility two-dimensional electron gas in a high-Q terahertz 
photonic-crystal cavity in a quantizing magnetic field, demonstrating a 
cooperativity of ?360. The splitting of cyclotron resonance (CR) into the lower 
and upper polariton branches exhibited a ? ne-dependence on the electron 
density (ne), a hallmark of collective vacuum Rabi splitting. Furthermore, a 
small but definite blue shift was observed for the polariton frequencies due to 
the normally negligible A 2 term in the light-matter interaction Hamiltonian. 
Finally, the high-Q cavity suppressed the superradiant decay of coherent CR, 
which resulted in an unprecedentedly narrow intrinsic CR linewidth of 5.6 GHz 
at 2 K. These results open up a variety of new possibilities to combine the 
traditional disciplines of many-body condensed matter physics and cavity-based 
quantum optics.


The key to LENR is strong coupling between the hydrogen atom and light. When 
the cavity that holds the hydrogen is the optimum size, vacuum energy provides 
most of the energy to delocalized electrons from protons to form metalized 
hydrogen. The optimum cavity size does the same job as extreme pressure to form 
metalized hydrogen.

If hydrogen is packed into a Nano cavity of the ideal size a strong coupling 
state might be achieved between the protons in the hydrogen and the light. In 
this way a state of superconductive coherence of protons might be formed: a 
proton condinsate.

This state of superconductivity has been detected by Holmlid and Miley in iron 
oxide. The high temperature proton BEC might produce a super-dense state of 
hydrogen as measured by Holmlid where the electrons and protons are delocalized 
from each other, this state of charge delocalization has been seen in water 
inclusions inside a crystal.

physics.aps.org/articles/v9/43<http://physics.aps.org/articles/v9/43>
Water Molecule Spreads Out When Caged

[http://physics.aps.org/assets/2ffd09ee-e786-4c72-844f-9b1a7df49a75/e43_1.png]<http://physics.aps.org/assets/2ffd09ee-e786-4c72-844f-9b1a7df49a75/e43_1.png>

What actually compresses the protons into a condinsate is vacuum energy because 
the cavity squeezes the light/matter condensate greatly.

As described in the referenced article by looking for a hydrogen BEC in 
cavities, a LENR researcher could find the ideal dimensions of the Nano cavity 
that produces the condensed hydrogen and engineer a material that produces this 
ultra-dense hydrogen crystal in abundance.

Currently in LENR reactors, pure chance produces metalized hydrogen in a highly 
porous metal that feature a wide range of cavity sizes which include the 
optimum cavity size that is made widely available by random chance.

What really compresses hydrogen to the LENR active ultra-dense metalized state 
is not high pressure, but the ideal combination of cavity shape/size, light 
frequency, EMF environment and vacuum energy.

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