When broadcating an image or video frame the BGR/kycm values could each be a separate silhoutte that combine like halftone dots to make an image. The big indium phosphide monopixel bucket could turn on and off at Thz speeds, building the optical/Em
unconnected beam splitter pixel transistor matrix that is a picture at a 64 or 128 bit row/column length so every line of the ghost 2D image is a computer instruction or a few assembly language instructions (this could read assembly language in parallel
with indium phosphide 7.5 Thz time
resolution/clock speed)

Thoughts and technologies about petahz wifi that is a million or more times faster than wifi 6E, also, the uses of wikipedia: Ghost Imaging at very parallel, petahz frequency, supercommunicative computers. If 7.5 Thz or higher indium phosphide Analog to
Digital converters are possible then it is possible to hardwire them as a level of, at a ghost imaging employing computer either the photon/EM bucket or the separate path Radiopixel/radio-ixel parts of a ghost imaging structure. the gist is that a
multiparallel array of wifi/radio radio can be read instantly, as the array is being the same as the fastest "single pixel"/one em wave bucket detector. So if that detector's semiconductor technology can respond at 1000Thz (petahz and higher) then plural
parallel data can be loaded into the beamsplit array (at photonic ghost imaging this is a pixel array, at EM/radio this could be an array of quantum dot sized metal antennas i saw published) one approach is to strobe actual light emitting quantum dot
antennas with a picosecond or femtosecond laser, that generates a pulse train that is modulated by the contents of each radio-ixel's electrical characteristics, that is does it have charge. If it does then the metal quantum dot sized antenna emits more
detectable photons. So, that radio detector array then can respond to picosecond or femtosecond fluctuations in the radio signal, making wifi with faster data transfer than petahz, hopping over THz radio data speeds entirely. This petaHz data
transmission can be made use of by the parallel processors of the CPU cores, GPU, or AI processing unit. If radio/EM based logic is possible at petahz it is 200 times faster than 2021 5GHz CPUs. Stated simply again the ghost imaging monopixel as radio
sensor is the the fastest best semiconductor and circuit that can be made because its frequency determines the plural data speed of the wifi. If separate areas of a computer chip communicate with each other using petaHz radio, or also if PHz radio logic
is possible, then both computer speed and parallelicity go up. A completely new effect to me is that one IC chip in physical package could radio send petahz data to other ic physical packages, about 10^6 times faster than physical Ghz circuit traces can.
That gives the ability to do computational sharing and fusion between chips that could be CM apart, keeping all the individual chips cool. One possible high speed/frequency response radio-ixel ghost imaging antenna is a quantum dot sized metal shape,
with 30%-70% response improving 200 picometer thick ferrite coating on it, with a phosphor that lights up when trough and peak radio waves at petahz are absorbed by it, depending on the observer effect that may be sufficient. Because the data that
matters is actually then, according to ghost imaging, instantiated at the separate path pixel/antenna array. the pixel bucket data has, to me, no known use, (other than to adjust sampling frequency) but the separate radio-ixel array has many uses. The
array could communicate the data it got off the radio from physical connections attached to amplifiers on the IC, perhaps vertically, ballistic transistor based amplifiers might be much faster as well.

Could wifi radio use soliton EM and soliton antennas to reach further

Noting really high frequency petahz or higher micometer or nanometer radios could

Femtosecond or published zeptosecond or attosecond zapped laser of amazing 100mw-1w continuous power. But very high pulse power on foil makes petahz or exohz frequency wifi at data carrying rates a billion times (exoHz) faster than 2021 6E wifi, a
billion billion Hz, to minimize production of radioactives at laser pulsed foil beryllium, or zirconium or lithium foils that omit being radioactive or turn to helium or hydrogen stable isotopes could be used, with a parallel plate of radiation stopping
thickness of non EM absorbing bismuth hydroxide a couple centimeters from the back surface of the foil that gets lasered to make radio waves from percussive shock waves on the atoms that have electrons, it might even be possible to make high electron
surplus induced at manufacture electret foils from foil-thick electret ceramics, but metal will also work. Also if metal is used it can be a conductor such that attaching the foil to a DC or static electricity source causes there to be lots more
electrons to laser impel at femtosecond to attosecond laser pulse frequencies to make higher power radio waves, that carry data, based on modulation of the femtosecond to attosecond laser. Noting the amount of data encodeable with a 10^21-23 pulse laser
is much larger than the number of transistors at a 2021AD CPU, and that at a radio producing laser foil 64K different laser beams can simultaneously in parallel percuss different areas of the 10 cm^2 foil, spaced 2 micrometers apart to produce 64K*10^21-
23 binary data channels, or about 10^26-10^28 bits per second, which can be received with a CPU, GPU, or AI processing unit that has multiple receiving nanoradios per chip. Nanoradios are a published technology where a C nanotube is next to a fullerene
molecule and is able to convey listenable audio. Another kind of nanoradio could be bulk parallel 64K different frequency tuned nanoradios made from silicone impression molding, possibly with the silicone stamp made with either a repetitive impression of
a C tube and fullerene radios, or made from a CAD file with electron beam lithography on the silicone stamp. The stamp is then coated with an electroless plating, nonoxidizing metal solution that when liquidly stamped on a chip, physically shrinks from
the 11% active ingredient plating out. So, if a 1 nanometer electron beam feature size is on the silicone stamp, it makes radio parts (combined and linked capacitor, inductor, resistor) just 110 picometers big after it plates out and the solvent dries or
sublimates away. Consider the possibility of making a RC inductor circuit from just one wire, the wire can have W zig zags to make a tiny resistor, and the inductor can be an RFID tag looking metal path, the -| |- capacitor can be two parallel lengths of
wire spaced by a gap, the inductor is the antenna, or a yagi antenna like branched part of the wire can be the petaHz to exoHz tuned antenna. It could then be possible to make an entire radio from a single stamped layer of electroless plating fluid. A
multilayer stamped and plated out to 110 picometer sized antenna is also possible, with a ferrite layer to make a better inductor, as well as tall thin capacitor plates. Noting that genetic algorithms make 300% better antennas than previous engineered
designs a genetic algorithm could find the most effective petaHz to exohz all passive component radio form that is suitable for making with one stamp impression at receiving data bit radio at a a very large plurality of places on a multibillion to
trillion or higher transistor IC. A large plurality of receiving radios benefits data sharing on a single chip faster than wired connections and permits separate areas of the same IC or even different ICs to compute together and fuse processing and data.
The really high value high volume of bit operations and computing could be based on universal computer making NAND gates made and functionalized completely out of nanoradios. AND radios could be two radios where if they both got the same bit (e-) the
capacitor charges twice as fast, An OR radio could be if either radio inductively receives a bit of electricity then the capacitor has sufficient charge to energize, as part of capacitor-inductor-resistor radio the emission of a new EM wave from the
inductor. If there are two inductors in the circuit in EM communication with each other, their AND simultaneous charge movement, makes EM sufficient to fill up a capacitor with an attached antenna, and Not can be logic represented with connections on
either side of a resistor, if its branched both before the resistor, and the other branch after the inductor then an e- charge gets dissipated a 1 is Not processed to 0, if a 0 is introduced then putting the zero volts/e- between the afterpath of the
inductor and ground causes the ground, possibly just a completely local ball of metal, to be
The four states of NAND could be identified as the four-8 highest contrast states of a capacitor connected circularly =[ ]$ with an inductor, i just read about synchronized harmonic motion at capacitors and inductors combined. The staggered phase graph
has distinct areas. It has two areas where the sinusoidal waves cross, one high, one low, and four distinct looking places where the additive resultant wave is tall, short, midheight, or about 1/3 tall. also for any particular pair of capacitors and
inductors there is a resonance frequency, and an acts like a capacitor/acts like an inductor region on either side. I thought a little about how to make some gates but not an entire NAND universal constructor, so i put it up on fiverr.com as a fun $5-10
gig, so at a new note there might be an update.


Its possible that, perhaps, perhaps not, it is possible to factor really large numbers with lasers or radios that overlap say 1024 or 2048 different colors, or 2 different colors, in plural rounds, to find perfectness of nodal concatenation, say you are
factoring 24 into 3*2^3, as you test each prime number on a list, the visual fuzz and wave skewedness is high when testing numbers far from being factors, but graphically on an oscilloscope like a smooth lissajous figure when a prime factor is there. If
the light sensor and oscilloscope work at attoseconds or zeptoseconds then, although its not much, you get 10^23 times per second. Actually now i think it won't work. It does not make sense but the overlap between a perfect lissajous and a lopsided curve
Miss, can be translated into the minimal number of vector arrows acting on a squiggly lump to make it mathematically identical to the perfect lissajous figure, then that plurality of little arrow lines, vectors, are combined to make the fewest numbers(
vector array pairs) that simulate the true new lissajous-smooth prime factor when wave added to a tested possible prime factor, i do not think it is that keen but the add and subtract vector forces on a moving lump could be called pottery barn factoring.
although there are math formula better ways, genetic algorithms and neural networks can also do the lissajous lump optimization pottery barn factoring thing

Bacteria that eat methane already exist 4 minute to 2 minute, make methane more soluble in water by adding 1-2% super high methane dissolving octane alkane or octo-COOH to the water, giving the methane eating bacteria 10-100 times as much food per liter
of culture medium, the bacteria that eat the most, reproduce the most, causing a liter of purpofully engineered methane eaters to autoselect for largest methane as food success, then at the liter of mutants (UV, Azide) include calcium chloride to cause
orders of magnitude greater gene jumping,

Little channel then wide lumen morphology of water prification membranes; enough ultrasound to cause pure water vapor from cavitation next to the membrane; going super thrifty water vapor passing/osmosis membrane could be low density polyethylene with
its surface laser treated to be hydrophobic electret with hydrophobic pillars which lets the water vapor get through; seeing if its possible to do better than a swiss roll a hypercrenellated torus like an auto air filter could be used, with the pure
water pipe in the middle, pumps that pressurize freshwater osmosis filters could increase their efficiency a third with reengineering using genetic algorithms, similar to the way marine propellers got 30% more efficient from genetic algorithms. A new
kind of reverse osmosis membrane could be very cheaply manufactured with a 5-10w laser diode and a cad based repetitive feature making optical grating when lasers etch features and vapor passing gore-tex like core apertures being etched on both sides of
the membrane at once, the front and back features can be co-etched because a laser makes a minimally refracted UV alignment reticle shine through one side of the polymer to the other.

In China at areas far from water where they generate electricity with coal it is possible to use and purify the 8-16ish times larger volume of water produced from coal than the original coal mass, dip through the water table in nonleaking tubes to
condense the exhaust, then travelling up and out of the ground to a high elevation siphons smokestack steam and air to condense it to liquid water, hyperbolic paraboloid that looks like a 20th century nuclear plant cooling towers make their own rain

Watermakers at the dwelling. Na-PCA is, i think sodium pyrrole-COOH, and advertisements show it pulling enough water out of the air to make a puddle in the desert. I do not know but it seems possible to make an even more deliquescent version of pyrrole
with an extra O on the cycle and an extra COOH orthagonal to the existing COOH. A metal atom or porphrin moiety version of super PCA could be constructed that loses all its water glomming abilities when exposed to light, such as LEDs, or, at the metal
atom or 1/2 a pedot monomer, ungloms from water in the presence of electricity. Another possibility is napca on a polymer tether that actually acts like a cellulose sponge that somehow can have the water separate from it. At a dwelling with 4-5 people,
using 100 gallons of water each/24 hours and if the super PCA absorbs 3-10 times its own mass in atmospheric water about 800 pounds of super PCA is used. Regular NaPCA is alibaba $5 per Kg so imaginably a new version that sheds water when lighted or
electrified might be double that, then add 100 for a tank water heater like multitubing electrical vessel, and, mounted on the roof with noise cancellation and capacious fans$200, then another $40 for LEDs, tank electrodes, and pumps a $1140 alibaba $
provides fresh water to 4-5 people all year for 20-40 years until the appliance wears out. Pleasantly that suggests the money recoup time is less than a year in Seattle, US

Tumor removing wikipedia ghost camera radiothermic cauterization

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