It is possible that hard disk drive platter materials would benefit from minimizing lattice variation (possible crystal lattice deburring) as a result of cryogenic treatment; this could permit more bits to be stored on a platter, or if a hyperregularized
magnet is easier to read, or if the magnetic intensity of platter coatings is increased, read at faster speeds from a quicker flypast still showing a strong enough signal to interpret.


optics, notably since CT effects crystal dislocation structure, does clarity change? Just put the 100 most frequently used optical components or elements at a mini-optical table, put it in the Meter deep meter wide cryogenic chamber; supercool, and see
what at say a 2D photon counter has changed, then change out the optical elements (like a matrix experiment) to find which ones changed, and to what, and if the difference has utlity, like reduced turbidity, changes to (kerning of) refractive index;
superwaulity of having uniform crystal-lattice at front surface mirrors, SHG (frequency doubling crystals) might

Chemistry and chemical reagents;
rate od dissolution; nonrechargeable batteries get more latitude, maybe it pops the other way, maybe highly irregulariazed laser treated to a degree short of decomposition battery chemical particles become hyperdislocated, and thus more reactive, raising
battery power per gram, but not life; cryogenic treatment of batttery chemicals/powders might cause notably longer life from different crystallinity;

Chemistry, and chemical engineering with cryogenic treatment of reagents: One big thing here is yield; does cryogenic treatment of the reagents priot to their meeting up with each other change the different percentage of different products resulting from
a reaction; Also, does cryogenic treatment of a catalyst cause change; one prediction is less catalytic, but another prediction, based on wikipedia’s “less electrical conductivity” and “instantly change crystal structure” is that the crystal
structure of the catalyst could change; just imagine if FCC (face centered cubic) with it’s little bump of center atom sticking out “between” is more catalytic than BCC (body centered cubic), where the atom actually avoids the perimeter, so
cryogenic treatment that causes

new catalyst: find some actual chemical where CT actually does cause it to completely change crystalline cell repeat forms, then swap out some of the atoms of that crystal with a catalyst element/atom, so like maybe cobalt or some other atom.

CT could have a strong effect on the conduction ability of proteon conductors, like proton membranes at energy systems, by changing the crystallinity (crystal form) of the material; some things similar to proton conductors like ion exchange materials and
possibly desalination membranes could function very differently from CT; If they can find a microorder at desalination membranes nanoscale structure (pores; pore halftones) then it is possible CT, say across a survey of each separate integer -degree, and
each of several durations, could usefully regularize the group effect “deburring” the membrane’s atomic lattices, causing the output to be more uniform, and perhaps the desalination membrane longer lasting. Perhaps.

It’s my perception electrophoresis gels have a togetherness-smear resolution of say some amount of microvolts; It is possible that cryogenically treating a preexposure electrophoresis gel could make it hyperregular, and so increase the microvoltage
resolution, producing finer discriminations; wikipedia says “less electrical resistance” so that suggests this could work, also, interestingly, this would be cryogenic treatment of water at the gel. There are more than 11 different crystalline
forms of water at various pressures

IQ drug/gene
screen a library of peptides to find a dielectric peptide or protein, do GA to make an even more dielectric peptide or protein; Then at human brain tissue culture organoids and mice insert the gene that makes the ultradielectric protein into the myelin-
making gene

Search for a dielectric peptide or protein at neurons now, one may exist, if so, just like myelin insulation causing much more rapid nerve transmission the dielectric protein or peptide could be causing, through its insulative characteristics, faster
nerve conduction. IF an existing dielectric protein or peptide is found at the human nervous system and CNS, then the genes and alleles that effect it could be intelligence (g, like IQ) genes. Existing myelin production genes and alleles could also be
intelligence (g, like IQ) genes and alleles.

They could put human myelin genes in rodents and marmosets to see if their cognitive function increased. Then they could make “even Moreso” versions of myelin genes that made better myelin and see if those caused the rodents and marmosets to be even
more intelligent than the human myelin sheath genes; not only myelin composition, but perhaps some “length of little sausages” gene exists, and longer sausages 5-100% confer greater cognitive ability.




CT strengthening metals might keep IC chip wires from breaking and debonding, and could make edge of PC card plug in contacts less prone to wear.

As a way to make whiter light with LED light bulbs cryogenic treatment (CT) could be arranged at 400 degrees of 1C variant samples (-400, -399…0), each for times varying 2,4,8,16,32,64,128,256,512,1024,2048,4096 minutes or log scale of refrigeration
duration. That’s just 4800 variations of a white LED, but they could see which of them were better for color temperature, full spectral output, and that most mimic the Sun’s emisssions. Then they could bulk-treat a known LED technology with a cheap
custom temperature and duration. A cubic meter $2000 alibaba -86 fridge and two peltier-in-peltier likely can treat,at 3 mm SMD package LEDS, 300^3 in 24 hours, or 9,000,000 million SMD Leds.

subtractive optical freeze bench; than swp out parts to see which changed.

Cryogenic Treatment of fiber optics, notably telecommunications and laser applications could be beneficial because if as wikipedia says “changes crystal structure”, and “changes locations of dislocations”, even “less electrical resistance”
cryogenic treatment could remove or introduce turbidity into any lens or mirror, at fiber optics this could effect distance between repeaters

IoTs auto greet telling their average connenction speed history, then they seek fastest contacts; tends to always find router, but at wifi might find BGN AC */math signal strength;

1 to 900 layer cold n2 drop stream center; test cold effect on coupons at single atomic layer-900 atom layer; then linear scarch test, may valiadte previous pure material n2 scratch resistance

Tin (Sn) allotrope alloy dental fillings expand, (perhaps an analogy) other metals also expand when they cystallize, quora mentions 4 metals, swelling amalgam is even tighter fit; this could be at dental implant hardware (sort of like screws) for better
seating and less crevice size/decay. At fillings a
polymer swelling amalgam could work to swell together tooth and polymer surfaces. The polymer could even have a Tin/allotrope fill/colloid aspect to swell the polymer, over say an hour after installation, and perhaps controversially, continuing over a
couple years because, just perhaps the tooth part of a filling is etching away and to be flush and tight a swelling filling is beneficial. An example of a swelling/unswelling polymer is 10WD40 motor oil that rolls into a little ball(?)/scrunches up at
lower temperatures so the oil has lower viscosity (?) (and it’s cheap). Also, liquid crystal polymer relaxation time of hours, or longer

GA seed crown and pinion is highest stress area of heavy vehicle, have a GA do better;

GA seed car air and oil filters; Ga seed HVAC air filters

GA seed, with a bunch of test coupons made and measured to provide base data, The effects of cryogenic treatment that produce benefit could be used as a guiding variable when having the GA produce an optimized alloy composition for cryogenic treatment;
that is what raw alloy blend is most optimal to get the preferrred product if you know you are going to do cryogenic treatment. GA of rebar metal could be this way; let’s say it turns out cryogenic treatment doubles hardness and rigidity of steel with
More Carbon in it, regardless of the carbon doing its hardness thing. The GA would take the application specification “Rebar of just one quarter the total mass, but able to do the rigidity work of regular rebar” and do the crossover/elaborate/winnow/
rebreed thing until it got as near as it could to that.

engineering, chemistry, computer ic, computer fab, longevity, longevity technology, treon, treon verdery, physics, lasers, laser, emiconductor, dimension, math, IT, IL, pattern resonance, time travel, chronotechnology, circile, eric the circle, cartoon,
healthspan, youthspan, cpi, manufacturing, fiscal, money, software, petroleum, archive at deviantart com user treonsebastia

All technologies, ideas, and inventions of Treon Sebastian Verdery are public domain at JUly 8,2023AD and previously, as well as after that date

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