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Diagram 300 WOW! Line 22f1fa19c3m1b7a5 Electron-Hole Recollisions Harmonics 5g WOW SETI

July 30, 2016

Diagram 300 WOW! Line 22f1fa19c3m1b7a5 Electron-Hole Recollisions Harmonics 5g WOW SETI

67 views 30 july 2016
quote yt

Math Equation Wow Seti 1977 radio signal alien

Wow SETI 1977 radio signal alien


Google 0.0071

Google 11 111 1 1 14
23 Nov 2012 Google keyword from previous video:

Line 22f1fa19c3m1b7a4 Laser ADLIS Terahertz Pulses LiNbO3 Microfluidics 5g WOW SETI

keyword: electron-hole recollisions research

Quote from blog:

Nature. 2012 Mar 28;483(7391):580-3. doi: 10.1038/nature10864.

Experimental observation of electron-hole recollisions.

Zaks B, Liu RB, Sherwin MS.
Department of Physics, University of California at Santa Barbara, Santa Barbara, California 93106, USA.

An intense laser field can remove an electron from an atom or molecule and pull the electron into a large-amplitude oscillation in which it repeatedly collides with the charged core it left behind. Such recollisions result in the emission of very energetic photons by means of high-order-harmonic generation, which has been observed in atomic and molecular gases as well as in a bulk crystal.

An exciton is an atom-like excitation of a solid in which an electron that is excited from the valence band is bound by the Coulomb interaction to the hole it left behind. It has been predicted that recollisions between electrons and holes in excitons will result in a new phenomenon: high-order-sideband generation. In this process, excitons are created by a weak near-infrared laser of frequency f(NIR).

An intense laser field at a much lower frequency, f(THz), then removes the electron from the exciton and causes it to recollide with the resulting hole. New emission is predicted to occur as sidebands of frequency f(NIR) + 2nf(THz), where n is an integer that can be much greater than one. Here we report the observation of high-order-sideband generation in semiconductor quantum wells.

Sidebands are observed up to eighteenth order (+18f(THz), or n = 9). The intensity of the high-order sidebands decays only weakly with increasing sideband order, confirming the non-perturbative nature of the effect. Sidebands are strongest for linearly polarized terahertz radiation and vanish when the terahertz radiation is circularly polarized. Beyond their fundamental scientific significance, our results suggest a new mechanism for the ultrafast modulation of light, which has potential applications in terabit-rate optical communications.

Key word to Google:

high-order-harmonic generation in next video.

24 Nov 2012

My thoughts:

I’m looking at the key words in the data from the terahertz collisions. Now the WOW alien radio signal has given us some ideas about missing boson’s from the standard model. The building blocks of the universe and dark matter can probably be found using this new formula I’ve come up with. See the videos from Line’s 17 to 22 for the formula’s.

Formula keywords from data:

Intense + laser field + remove + electron + atom + molecule + pull + electron + large amplitude oscillation (google) + repeatedly + collides + charged core + left behind

Recollisions + emission + energetic photons (create higgs field with this method and see what it leaves behind) + high-order-harmonic generation + atomic molecular gases + bulk crystal (mixtures of fuel and power for the CORE of the UFO space ship formula’s in the wow videos)

Exciton + atom + solid + electron + valence band (google) + bound + colulmb + interaction + hole + left behind+

Recollisions + electrons + holes + excitons = new phenomenon + high-order-sideband generation (google) + excitons + created + weak near infrared laser of frequency F(NIR) (google)

Intense + laser + Higgs field + lower frequency + f (THZ) + THZ radiation waves + removes + electron + exciton + recollide + neutrinos + leptons + spin + resulting hole = dark matter + new boson particles

New emission + predicted + sidebands of frequncy F(NIR) + 2nf (THZ) + integer + greater than 1 + observation + high-order-sideband generation + semiconductor quantum wells (google) + sidebands + observed + (+18f(THZ) or n = 9 )

Intensity + high-order sidebands + decays + weakly (bosons) + neutrinos + increasing + sideband order (google) + confirming + non-perturbative nature of the effect (google)

Sidebands + strongest + linearly + polarized + terahertz radiation + vanish + +becomes Zero + 0 + terahertz radiation + circularly + polarized + Tevatron + speed + high temperature + collisions

New mechanism + ultrafast + modulation of light (google) + potential + applications + terabit-rate optical communications (google)

Google keywords in next video

large amplitude oscillation (google)
valence band (google)
high-order-sideband generation (google)
weak near infrared laser of frequency F(NIR)
semiconductor quantum wells (google)

sideband order (google)

non-perturbative nature of the effect (google)
modulation of light (google
terabit-rate optical communications (google)

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