It could be that the solar boost box creates resonances that increase the 
spectrum of the incoming solar energy that is converted to usable current/cell 
voltages--in other words makes a solar photon conversion more probable.


Bob Cook


________________________________
From: Bob Higgins <rj.bob.higg...@gmail.com>
Sent: Thursday, September 22, 2016 3:13 PM
To: vortex-l@eskimo.com
Subject: [Vo]:Re: [Vo]:RE: [Vo]:RE: [Vo]:New Record Low Solar Price in Abu 
Dhabi – Costs Plunging Faster Than Expected

>From their video, it looks like they were trying to find a way to eliminate 
>electron recombination in the silicon lattice to improve efficiency.  They may 
>be planning to do that with fields created with the pyroelectric films.  Since 
>the typical delta T from front to back in the panel is 26C, there is the 
>opportunity to have a pyroelectric film to generate a field for use in their 
>function.  In the mean time, they may be applying the bias with an electrical 
>circuit to model the effects of the pyroelectric film on the panel efficiency 
>(in the manner they developed to eliminate the electron recombination).

It is interesting technology.  If they are able to simulate, what would keep 
them from deploying the electronic method?

On Thu, Sep 22, 2016 at 3:57 PM, Jones Beene 
<jone...@pacbell.net<mailto:jone...@pacbell.net>> wrote:
Stephen,

I’m not sure the E field is static. It could look more like electronic noise. 
The inventor – Kumar - also has other patent apps which indicate the way he is 
going.

20150108851 Photovoltaic systems with shaped high frequency electric pulses
At least one photovoltaic (PV) cell comprising a semiconductor material having 
p-n junctions formed therein, and configured to generate a PV output voltage in 
response to light; and a pulse generator coupled to receive a PV output voltage 
and generate electric output pulses therefrom.

20150107644 Photovoltaic efficiency using high frequency electric pulses
A system can include at least one solar cell comprising a semiconductor 
material having p-n junctions formed therein; and a pulse generator 
electrically coupled to the solar cell and configured to apply electric pulses 
to dynamically alter a band gap of the semiconductor material as photons are 
received

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