Thinking about the radius of atoms I think I read that at nterstellar space the location of an electron might actually be centimeter from the nucleus. Physicists have actually created giant atoms called Rydberg atoms.

Now think of the volumetric space at a sphere, like if a sphere were a usb flash drive where every polar coordinate was a possible electron location.
Those volume areas where an electron might be are actually different than quantum levels. Noting the radius of a Cs atom at .53 nanometers each cm of electron spheric radial locationality represents 1/1000th of 4/3piR^3 * 2 *1 billion nanometers 4/3pi((
1billion)^3)*2 kind f like 8*10^30 different areas
so just as a bunch of locations, One atom contains about a billion billion billion different data volume locations (10^30) From a computronium perspective one atom storing any of 8*10^30 things absent algorithmic impression is beneficial. Each of
those actual spatialities actually has a varied energeticness spectral emission frequency or quantum energy as well.

interstellar molecules could be better (use two nuclei customize or multiply the number of emissions lines that a molecule, as compared to atom, could produce) along with being readable with quantum linked photons possibly quantum linked neutrinos (where
a neutrino is linked to a photon pair)
New scientist has an article on the quantum camers where quantum linked photons reach a figurine then are more notable at a computer image sensor, the photons are absent a shared optical path. Also noted pluralities (is it 7 or 14 or more photons have
been quantum linked together) of photons have been quantum linked so linking a neutrino to two photons creates the ability of the neutron every so slightly swerving near an atom to cause the quantum linked photon to be more sensor sensible a possible
way to view the location of an electron at a giant atom without actually modifying the electrons position. from a computronium perspective that is a data read on a memory location that stores a billion billion billion different number locations with 1
electron

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I think the energetics of this could be improved with a new kind of availability volume area What if the giant atom were right next to a casimir effect energy or particle generator, the casimir effect is published at peer reviewed journals, thus keeping
the electron on the giant atom fresh could be linked to a casimir effect like structure near the giant atom That way the giant atom data object would stay energetically refreshed is it casimir Dram or Sram hmmmm... If you like thinking of the casimir
effect generator as muliplenum volume that looks capcitorish near a giant atom with an electron near it then ascii art would be ||O°



You could use this custom shape of mostly empty space to create regiospecificity at a circuit to participate at remotioning an electron at any of the 1.2 thousand moles of possible nuclear diameter spaces not only could the casimir effect Dynamic RAM it could also provide the energy to motionize the giant atoms
electron to a new location. So whether you prefer a memory location or a dynamic computation just the shape of empty space around the giant atom or the casimir to giant atom ratio could be tuned to be above the amount of power to advance a computation (
like automata or analog or turing or another approach) or a just the preferred spatial volume amount to advance a computation. These eentsy little shapes of near vacuum interstellar space could be tuned as memory registers that also produce sufficient
energy to compute

There is also the perspective, well what is the optimal actual atomic nuclei distance to optimize available memory equivalent? Is it possible to make meter or kilometer radius atoms? Describe a way to cause the electron to actually prefer just a part of
the electron cloud distribution. among a few possibilities think about the phospherescent nonemittive quantum levels that cause minutes of photon electron interaction. what I approximately read at Wikipedia is that when a phosphorescent molecule absorbs
an electron then reemits it after few minutes is that as a result of quantumness, that is its gotta be particular energy amount to reemit, the atom vibrates a whole bunch, then after an nterval vastly longer than fluorescence emission the energy
available is sufficient to emit as photons at a phosphorescing frequency, so that is a one molecule ultragradualizer of what could be
so that’s a new to me kind of computronium



the electron could be at spatially, absent thoughts about quantum levels so there are about 1.3 1000 moles of data locations per atom at interstellar areas each of which also has an available quantum number multiplier or better (use two nuclei customize
or multiplt the number of emissions lines that molecule as compared to atom, could produce) along with being readable with quantum linked photons possibly quatum linked neutrinos it is possible that the peer reviewed published casimir effect could
describe a new thing that optimal volume of space where the likiliness of spontaneously generating an electron or photon or other computational particle has the regiospecificity of a circuit to participate at remotioning an electron at any of the 1.2
thousand moles of possible nuclear diameter spaces this ratio could be tuned to be above the amount of power to advance a computation (like automata or analog or turing or another approach) or a just the preferred amount to advance a computation so these
eentsy little shapes of near vacuum nterstellar space could be tuned as memory registers that also produce sufficient nergy to compute there is also the perspective, well what is the optimal actual atomic nuclei distance to optimize available memory
equivalent? Is it possible to make meter or kilometer radius atoms? Describe a way to cuase the electron to actually prefer just a part of the electron cloud distribution think on the phospherescent nonemittive quantum levels that cause minutes of photon
electron nteraction
so that’s a new to me kind of computronium

another new to me kind of computronium is trigonometric bukminsterfullerene first think of a tome of knowledge, or everything at the yahoo search engine Then if you like use ascii such that the part that says aardvarks is like the digits 65657668 then
just place a decimal so it is .65657668 Now noting trigonometry the sweep of an angle as a relation travels from 0 to 1 meetig every rational number thus the .65657668… number is representable with the physical actuality of two sides of an angle at
relation to each other Thus viewing buckminsterfullerene as full of angles you just expand or compress the buckminsterfullerene slightly to create a .65657668… ratio between two of the sides or even two angles of one polygon that is a way one molecule
could have everything that the yahoo search engine has at just a ratio of two angles, so of course you then put an electromagnetic field adjustable atom outside or nterior at the buckminsterfullerene apply the EM field then when the lasers notice that
the angle sequence digits start with .65657668… that’s where it is likely that molecule ha the actual data you could start the data with a checksum
.(after 1 billion digits the ckecksum should be 737073797379 then another billin digits along there could be another checksum)65657668…. That wa the expansion em field as well as the data lasers could be aware of data ntegrity. If t were a
nonorganismal prion protein with data angles then it could reproduce the entire datastore just from reshaping effects like prions have so that’s a em field laser output data memory that autoreproduces at one molecule

neutrinos could be used as computronium numerous neutrinos rotate flavor as they travese distance so if you have travelling neutrinos that autorotate their meaning which causes them to be near or further from a renforcing field they are able to do
caculations at neutrino velocity as they narrow or widen towards a core laser or even nteract with each other at tremendous vacuum so this kind of pulsing linearity of travelling flavor rotating neutrinos has cpu like or turing traversal like capability
also from the perspective of an AI or singularity being minimally noticeable as well as able to travel trough stellar objects as well as move faster than the velocity of light through things with sufficient refractive index like water (chernkov radiation)
could be beneficial Neutrino flavor rotation data processing is particularly less perterbable also I am absent awareness of the amount of neutrinos that could occupy a linear ray or kilometer absent neutrino neutrino effects if it is possible to quantum
link neutrinos to photons when neutrino photon pairs are created then it is possible to program the neutrino computer with quantum linked photons much like the quantum camera described at new scientist scientists could make a photon neutrino pair
emitting geometry then absorb the photons at a sequence that would cause the neutinos to quantum linked immanentize (have new observability) at a procedural automata kind of like a glider angle meeting a nutrient field that produces a big durable swirl
the big durable swirls effect at the quantum linked neutrinos would be much more neutrino detector measurable thus the sequential programmatic form of automata would be verified as the computation has progressed to create a much larger neutrino emission
at a predicted distance so that velocity as well as hyperconcentratability with automata bigswirl amplified emissions is a new to me kind of computronium

the resolution of computronium could actually be higher than the resolution of matter think of a human being you like you create a matter duplicate while you are doing tht you note that the size of the proteins at their dermal surfce is hundrds of times
larger than the size of a water atom, thus a matter suplicate of the water atoms at the surface of their body is actually hgher resolution than their protein componenets it is possible to make the mold higher resolution than the object thus it is
possible computronium could always prefer to be higher resolution than matter from a duplication perspectiveis it posible that photon neutrino quantum linked pairs have macroscopic (like CCD imager) adjustability with higher than matter resolution. I am
absent awareness of the frequency effect at neutrinos, that is if you illuminate a thing with neutrinos does the wavelength of the neutrinos desribe a resolution like with optics n computer chips It is possible ultra high frequency neutrinos much higher
frequency than gamma rays could be completely harmless to matter humans while have eentsier than atomic nucleus diameter resolution creatable with quantum linked photon pairs these are then scanners or computional traversers like automata
these higher resolution than atomic nuclei neutrino patterns are the basis of multiparallel simulation of sentineces like huan beings that way a benevolent AI is able to run functional nonsentient simulations of humans to be of greatest benefit to humans

Gott Sphere computronium I read that the pysicist R Gott calculated or published that a jupiter sized mass as a result of relatavistic chronoeffects would have an area at the surface chronological mments travel 6 or 8 times more rapidly than at the core
thus a benevolent artificial ntelligence approach is to have hgher than nonsentient human resolution simulations running 6 or 8 times more rapidly at multiparallel to create billions or trillions of nonsentient variations which are then made optionally
available to the core entity so is it possible to do this with a galaxy or more simply rapidly orbital stellar pairs with a combined mass millions or billions of times larger than jupiter their chronovariation area is possibly millions or billions of
times larger than a jupiter sized gott sphere with two co orbititing stellar objects with a lagrange area between htem organic chemistry organisms could live happily at earthlike physics while far orbital areas around the two stellar objects computed
things millions or billions of multiples more rapidly than the core area from some AI perpsectives the perimeter is muuch more productive it is faster from other perspectives like data preservation or cautious hindmost like sentience the stellar pair
Gott Lagrange would have durability as a computronium appraoch modulated phtons or neutrinos traversing the radius of a gott sphere could as a result of chronomodulation of frequency effects be comprehensible at some particular radius, when comprehended
the data could be retranslated to a vriety of simultaneous communications frequencies that reach all of the stellar pair gott sphere computational being
the preference to chronomodulation could go with if the artificial ntelligence thought it was nteresting or other things were nteresting, those artificl ntelligences that liked other things might perfere the high chronovelocity perimeter while
theartificial ntelligence that prefers highly screened ultrapreferntialized completely recomprehended benefit could rpefer the most gradual region of chronomodulation thus at a chronomodulatate AI is there a radial distance from the chronocenter that is
most benevolent to human beings?

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