Skip to content

Diagram 274 WOW! Signal Quansi MASSIVE Particles Electron Holes Ballistic Super Conductors

March 7, 2016

Diagram 274 WOW! Signal Quansi MASSIVE Particles Electron Holes Ballistic Super Conductors. Diagram 274 continues instructions for Diagram 273, and Diagram 275.

see Diagram 274 here:

the idea girl says

Diagram 274 WOW! Signal Quansi MASSIVE Particles Electron Holes Ballistic Super Conductors.

blue book 1, page 80, part II wow obsidian mirrors formula search notes. Diagram 274, continues instructions for Diagrams 273 to 275 for the UFO Engine Vacuum particle collisions, adding Ballistic conduction, creating a super conductor with higgs, neutrinos, electrons, electron holes in a crystal lattice structure.

Diagram 273 shows carbon nanotubes with silicon nanowires connecting up in the MIDDLE of it.

materials, metals and alloys are all affected by the added mass to the quasi particles.

under Particle effects in Diagram 273 it shows Ballistic conduction and below that one of the crystal lattice walls with two electron holes in it.

materials —-> (OO) METALS   (O) Alloys

affected by

___> right arrow, ^ up arrow ,      v down arrow,             <— left arrow directions  <___ ,,


<<—–(OEH OEH)  two electron holes in a crystal super lattice wall (UFO Engine Y structure design)


(left arrow directions from EH electron holes  in the porocess of particles —> ballistic conduction

under the right, up, down, left arrows it says

Extreme Size (particles adding MASS)


O m+ M_+ m+ (particles adding mass?

See Diagram 275 for Quasi ID Structure, Higgs, Neutrinos, Electrons and Ballistic Conductor turning into a super conductor as laser beam signals attach to the particles?

google quasi Id structure to see what comes up

quote WIKI


Teen-Age Message[edit]

Main article: Teen Age Message

The Teen-Age Message, composed by Russian scientists (Zaitsev, Gindilis, Pshenichner, Filippova) and teens, was transmitted from the 70-m dish of Yevpatoria Deep Space Center to six Sun-like stars on August 29 and September 3 and 4, 2001. The message consists of three parts:

Section 1 represents a coherent-sounding radio signal with slow Doppler wavelength tuning to imitate transmission from the Sun’s center. This signal was transmitted in order to help extraterrestrials detect the TAM and diagnose the radio propagation effect of the interstellar medium.

Section 2 is analog information representing musical melodies performed on the theremin. This electric musical instrument produces a quasi-monochromatic signal, which is easily detectable across interstellar distances. There were seven musical compositions in the 1st Theremin Concert for Aliens. The 14 minute analog transmission of the theremin concert would take almost 50 hours by digital means; see The First Musical Interstellar Radio Message.

Section 3 represents a well-known Arecibo-like binary digital information: the logotype of the TAM, bilingual Russian and English greeting to aliens, and image glossary.

Stars to which the message was sent are the following:[17]

Name HD designation


Date sent

Arrival date

197076 Delphinus August 29, 2001 February 2070

47 UMa 95128 Ursa Major September 3, 2001   July 2047

37 Gem 50692 Gemini September 3, 2001 December 2057

126053 Virgo September 3, 2001 January 2059

76151Hydra September 4, 2001 May 2057 

193664Draco September 4, 2001 January 2059

the idea girl says

i’m looking at these dates and shaking my head no.  In human technology it would TAKE that long.  But alien technology, they may have a “receiver” that can process these messages much faster than YOU assume.  #prediction March 7, 2016.

searching for NEW data. Quasi ID Structure (the WOW! Alien technology shows how to SET it up, You have experiments and theories about it in the following I found.


quote from

Compositional ordering and stability in nanostructured, bulk thermoelectric alloys

Thermoelectric materials have many applications in the conversion of thermal energy to
electrical power and in solid-state cooling. One route toimproving thermoelectric energy
conversion efficiency in bulk material is to embed nanoscale inclusions. This report
summarize key results from a recently completed LDRD project exploring the science
underpinning the formation and stability of nanostructures in bulk thermoelectric and the
quantitative relationships between such structures and thermoelectric properties.
No comments yet

Leave a Reply

Fill in your details below or click an icon to log in: Logo

You are commenting using your account. Log Out /  Change )

Google+ photo

You are commenting using your Google+ account. Log Out /  Change )

Twitter picture

You are commenting using your Twitter account. Log Out /  Change )

Facebook photo

You are commenting using your Facebook account. Log Out /  Change )


Connecting to %s

%d bloggers like this: