At an AFM tip, could the little heaps be made with internal or stacked layers so that when some of the AFM tip body atoms quantum tunnel they more frequently tunnel to sharpen the tip, perhaps a crenellated Stonehenge at the top of the heap would be AFM
atom positioning as is, but an atom on top of a π could occasionally heighten sensitivity or also precision at moving atoms, at an actual nanotechnology I have seen images of what looks

Although I may misunderstand the wikipedia article, magnetic spin quantum tunneling works only on materials with integer spins, and (Pauli exclusion principle) is a two electron system, viewed another way, perhaps AFM tips made from integer spin magnetic
materials like Co or Ni, or isotopes might have less frequent quantum tunneling, this could cause them to retain their shape longer or be sharper at the atoms at the top of the heap, the durability of the AFM tip shape creating greater sensitivity and
precision at single atom sensing/moving activities

AFM tips with a column array base farther from the tip could be less jiggly, it could be that when thermal jiggle from a larger AFM base or bulk meets a column only certain frequencies are likely to be transmitted, like benzene just does boat and chair
in response to jiggles (but not crown ether look) it seems possible to put an AFM tip on a columnar frequency excluder base perhaps excluding some thermal jiggle. Creating greater precision, possibly supporting this is a completely different thing at
nature, the lipid bilayer that causes, to my perception, liposome surfaces to only move certain ways

If it is the other way (dejiggling based on static geometry is not a thing), then what is the eentsiest peltier element you can stack an AFM tip on to dejiggle (destochasticize, cool the AFM tip,

It might be obvious but at the nanoassembler video I saw the things with AFM tip like things were rotating on the perimeter or a wheel, has anyone made a multi AFM tip array kind of looking like a multipipettor ....... Or [:::]

Just as an interesting thing, if you have an electret or voltage clamping sheet things will stick to it like vinyl cling film or dust on a CRT, but if you lower the electrostatic charge (_decrease electrostatic voltage clamp) on the sheet the nanoobjects
and atoms will not fly off but be translatable (roll around) but still on the sheet, where they will accumulate at different local minima and maxima at the creased origami sheet, if there were gravity this would be like shaking a paper to get the stuff
to fill dippy creases, absent gravity though, an adjustable voltage clamp on a patterned, possibly a detailed pattern, but weakly electret sheet would concentrate certain nanobjects and atoms preferentially at local minima and maxima, noting this is a
patterned sheet the rest of the nanoassembler would know which part of the patterned sheet to find particular things

Gold panning not with gravity but with an electret dish with an electrostatic voltage clamp on it could sort things

I might have the frequency size and the groovy cymatic pattern size scoping perplexified, but perhaps there could be cymatic atom or nanoobject sortation at a plane (or 3D space) from a high frequency stimulus, a coherent vibration (jiggle),

Another kind of Voltage clamp (electrostatics energizer) besides piezo on a previously wound spring (possibly in a traveling hamsterball) and thermoelectrics is popsicle stick exploders with piezoelectric areas, that with a slight nudge, or just
predictably after some interval disassemble, spring loaded peel a parts (X-ray sticky tape technology

An antibody glomming to something could activate, that is shift charge to a moiety or moieties that cause a physical chemical bond to the receptor, white henna that is actually a Michael reaction with protein chemistry could do it (henna actually
attaches to keratin protein molecules), propping receptors open, on or shutting them, causing much greater durability this way, the antibody part could even break off leaving the glued open/shut/active/inactive receptor, some possibilities are single
dose longevity drugs that work on AMPK and IGF receptors (test on mice), another possibility is that people psychometrically measured at being at the 90th percentile of actually being able to know what they want who are psychiatric patients like
schizophrenics who are also at the 90th percentile of treatment success, from the patient's perspective, could get their medications permanently installed, brain localization of the glue antibodies could reduce unintended body effects

There is a monoclonal antibody treatment for atopic dermatitis, a Michael reaction glue version could possibly be administered topically and make those areas durably absent a topic dermatitis, a test area could be used to verify effectiveness and
compatibility at individual persons before applying it to large areas

There is the possibility that a glue antibody could durably treat harmful cholesterolemia and high blood pressure, saving many lives

BCG vaccine could increase intelligence, particularly in 6-teen year olds, there was a 15-20% increase in long term potentiation during similar rodent maturities as human 6-teen year olds, also dendritic amount goes up zero to about 40% (which I read
goes with greater intelligence) so as a technology, what is the most intelligence heightening dose for primates, anything from .5 dose to 8 doses is imaginable, experiments on monkeys could find the optimal BCG intelligence raising dose for humans and
also measure social functioning generally for any change, also BCG causes in my no activation (like t cells) to something, is there something endogenous at the human body the heightened immune responses are reducing the amount of, if so the genetics of
the amount of the endogenous material the antibodies could be intelligence effecting genes where the gene variant that makes less of the stuff increases intelligence

Longevity technology

Nanoassembler and nanotechnology

NOR computer logic form

Sensors

Transport mechanisms

Hamster balls ac like electret pulsing polarization, wind up clock with piezo hands strobes outer surface to repel and attract on U (actually O) segments, hamster ball can carry cargo

Bootstrap nanoassembler

SiO2 ic chip lithography isotopic electret paths, molecule sorting dot twister mats, mems or 3 nm vacuum huts, hamster ball transporters made with material that sublimes to leave an empty compartment, a Tetris piece maker, an annular vibrating circle
that vibra-plate and/or radial isotopic electret sorts Tetris pieces into separate piles, then

Audi/olympic circles with an inactive one (or several) that turns on after the Tetris piece sorter has grouped the Tetris pieces, at the overlapped part of the next Olympic circle a blend of two Tetris pieces occurs, and their compatible electretness or
mechanics sticks them together, piezoelectric or other motion jiggles them outward to another annulus, that annulus has electret surface patterns that favor a particular configuration and form to probabilistically attach and stay around even with
jiggling, the overlap with the next Olympic circle can have electret patterns on it that favor uniting two groups of two Tetris pieces, there is also a piezo pattern that vibrates things on the previous annuluses back to a stochastic distribution so the
Tetris pieces that have not successfully matched and travelled out of stochastic I at I on range have another go at combining

Another ic 3nm technology is to make a coil spring @, toss it on an electret alignment maker and cause it to change shape with piezo electricity, storing tension and mechanical energy (it is encircled or point-kept from expanding, then when the
piezoelectric energy is no longer supplied or the coil @ is moved it can supply continuous mechanical power

Quantum linked photon communication UV sticky tape/peel, parabolic dish 3nm ic size

Pinball bumpers that sort and decrease stochasticism imparting energy to things that bounce into them with vase/face contours, high up get energized, vase/face could be improved with flexi-shingles that dampen velocity rather than impart velocity and
reflect to be nearer the base electret surface, vase/face with shingles could be made with 3-7nm IC technology, a nanoassembler making nanoassemblers component could be making vase/face with shingles from Tetris pieces sorted with annuli

with piezo electricity makeable from storing tension and mechanical energy at the wound @, then when the piezoelectric energy is no longer supplied or the coil @ is moved it can supply continuous mechanical power

I think non-drexlarian nanoassembler are possible (notes), some drexlerian nanotechnology has possible new technologies and improvement

I saw a Drexlarian nanotechnology video and at it they had a bunch of what looked like AFM tips on the perimeter of a wheel, to have them do pick and place of single atoms or entire Tetris pieces actual AFMs modulate charge, that would at first seem to
go with e- conduction pathways to every AFM tipped wheel but another way to do it is to have a tall chunk of piezoelectric material, taller than the AFM tip that contacts a strike plate nest to the thing being built, that pulse of e- provides the energy
to glom or unglom the atom or Tetris piece at the tip, another possibility is to have the flat sides of the afm-tread wheel have a (circle of) little raised columns that are struck periodically (or programmatically) and then conductive pathways (or
possibly just electrostatic charge distributing ridges) cause e-changes at the AFM tips to vary their glommingness, this is kind of like a disk (rather than cylinder) music box

One Drexlerian nanotechnology uses C2H2 to make diamond, isotope and spin effects of deuterium could cause more maneuverability and responsiveness to varied kinds of electricity like exposure to spin polarized electrons, published material says that
oxidizing No with spin polarized O2 is 40% different

Doped diamond can be a p or n semiconductor, it is possible that diamond sponge could be nano manufactured, with the possible advantage that the edge of each hollow would have surface-like charge anisotropy, the surface charge anisotropy would make the
diamond more reactive, causing the 0°C or STP growth of diamond at the surface to be more chemical physics favored, perhaps even with Drexler's C2H2 acetylene feedstock, spintronics does varied things with crystal lattice anomalies (hollows, edges), and
different versions of acetylene (C2D2, or even C2DH) are likely to grow, or AFM tip place differently and with a wider latitude of engineering material characteristics

Sticky tape x ray diamond dust maker, the cover of Science had a light and X-ray emitting roll of unpeeling sticky tape, it is possible that the light came from a line of plasma produced from the minute area of "nothing there" (vacuum) making plasma,
there are are 273 kelvin plasma diamond CVD machines, so perhaps a sticky tape plasma nanotechnology could make diamond chunks at varied sizes

Are there "endothermic" (cooling) physics "reactions", like throwing a tarp on a pile of dust, a dendritic tree with electret branches, inserting rebar into premade holes at a column that is swaying, these could contact another system to make it jiggle
less (cool it) that could benefit nanotechnology, an AFM tip with an annulus of dendritic tree electret material like an anti-wriggle wreath at the base of a AFM tip cone could wiggle less

There is a little more to this endothermic like physics, rather than just damping vib there is the p

Grapheme net with hexanes between cycles could be a cling to fit tarp over a pile of diamond nanodust or Tetris pieces

Little edge and chunk disturbances in electrets make them last longer, and putting 500 nm chunks has been published as doing this, so making Gaussian or other patterns of nanothings could benefit electret applications, electret sides at Tetris pieces
and at material and nanoobject paths could have these as internal

It is likely genetic algorithms to heighten the capability of nanoassembler is described online, a bootstrap IC wafer version makes millions or billions of nanoassemblers then the ones best at assembling things are found, studied, their capabilities
concatenated and genetic algorithm screened again

Analogous to a monopole-like Halbach array, electret square arrays could have a very electret side and a non electret, even electron ignoring side (without chemically being Teflon), if either or both of these is possible then super slippery non-sticktion
material and nanoobject transport paths as well as very-much-stay on it paths could be made with SiO2 electret (bootstrap IC technology uses lithography to make these enhanced paths) paths and Tetris piece sides

At an SiO2 surface perhaps a nano hamster ball or hamster cylinder big sphere full of power, eentsy line tread could make voltages sufficient to resurface, modify electretness of travel pathways

Carbon dioxide food maker and social companion robot maker

At nanoassemblers that eat rocks Aluminum hydroxide gel batteries chromotography at insulator then connect conductive pathways to different chromatography bands use separate chrmotography bands as battery chemicals, thermoelectric, photovoltaic TiO2,
sand dune collapse avalanche electricity, nernst battery arrays (chromatography and concentration) Fe3O2 ->Fe2O3 generates electricity, these occur in rocks, bacteria can live off an iron oxide cycle

With a Nernst battery evaporation can produce the separate values of ion concentration, if drexlerian acetylene to diamond makes warmth that could actually drive the Nernst battery, which uses water as a place to have the ions

At crystals phonons and plasmonics has to do with the.patterns and movements of holes in a crystal lattice, kind of reminds me of proton conductors, physicists could find out what the biggest plasmonic hole they can make in a crystal is, computer models
could then figure out how to stimulate plasmonic inputs (likely but not necessarily at the perimeter)

Possibly Sponge on the exterior, plasmonics then travelizes the missing nuclei to designed locations in the crystal, making Tetris pieces from novel cleavage (custom shards), or making detailed hollows as mold forms, pallet nest tool/object hollows,
Making the largest plasmonic hole could benefit thermal/jiggle management as well making shock absorbers and even dewar flask (thermos like) hollows,

Physics researchable, if you use just 1 or 10,000 photons at a detector can your optical path be much smaller than the wavelength of light, nanoparticle suspensions like Fe2O3 have color, are they reacting to wavelengths thousands of times bigger than
they are, or kind of amusingly, are 1000 of them just lining up in solution to make a big antenna, IR spectroscopy of water and conversion of AGNO3 into silver from light suggests triatomic sizes of photon detectors are possible, if these can detect
quantum entangled photons, causing another of them to identyize like New Scientist quantum camera then nanoassembler and nanotechnology could have data communication without light wave sized optical paths

A dense chunk, a beehive with frames, or calm worlds in a a feedstock refreshing fluidized bed, calm worlds at a fluidized bed might get continuous piezoelectric power from their exterior

Also, the antenna compared with Ag ion size difference, and the Fe2O3 nanoparticle solution having color even though i think the nanoparticles are smaller than a wavelength of light and quantum dots emitting at wavelengths hundreds of times their
diameter, all make me think em power transmission can be done with a nanoantenna thousands of times eentsier than a wavelength of the EM energy

read about coherent warmth (different than IR)

What might work is a big area capacitor with electricalal connectors hanging down from it at part of the nanoassembler, also these are macro enough IC tech 7 nm conduction pathways, I am reminded of compressed air tanks with hang down places to connect
pneumatic tools

Quantum dots on stalks as local energy harvesters, perhaps even though there is a huge wavelength mismatch they can absorb "coherent heat" that I read about or IR from it

Electrets last multiple decades or I think longer, it is apparently possible to recharge electrets without melting them

It is possible a nanostructures electret could

A flying (travels independently through gas) inkjet printer from human visible drone to nanotechnology, nanoassembler size

Quantum camera lens could scan a bigger thing at 3d then the other optical path could go through a shrinkifying lens to make a miniaturized image, like making a miniature figurine at AgNO3 gel, different than nanotechnology, at nanotechnology possibly a
larger IC technology object could be quantum camera shrinkifying lensed into changing a nano material to make a shape, circles, curves, and things beyond Tetris pieces, that this can be done non-aqueously is suggested from the existence of solid phase
batteries and solid catalysts, these suggest the write medium could be a crystal, or an orderly heap of nanodust, or a roll of bubble wrap

Trampolines of frequency change, along with vase/face with optional damping shingles that adjust the 3D form of a velocity and angle distribution I think it is possible to increase or reduce the frequency at which something jiggles, moves or rotates,
these could be used at nanotechnology, a merry go round could use centripedal effects to make all the things at its perimeter wiggle ( linear translate, but also stochasticize differently) less, I do not know why a rotating penny at an angle to a plane
makes a higher and higher frequency sound but that is one way to heighten a frequency, perhaps it still works without gravity if you have the nanopenny spinning on an attractive gravity replacing electret or an orders of magnitude higher attraction
electrostatic voltage clamp, also if you put a pole or tube on just the upper side of a rotating penny-at-an-angle then the pole sswoops out a cone and is sort of like a continuously varying gear, with the top of the pole the widest radius gear, and all
of the pole or tube where the diameter of the trace out (spline) is less than the diameter of the penny is like a gear smaller than the penny, this is kind of like a gear with one tooth, but if you like you can put a circle of tubes on the penny and make
a variable multitooth/peg radius, and gear-for-ratio gear this could have value as an adjustable frequency (higher with option of less frequency amount) rotating motive power source at nanotechnology and nanoassemblers, after it winds down to lay flat a
nanoactuator could lift the penny with tube back up to about 89° for it to rotate again

i have seen images of nanotechnology gears, which with gear ratios is another way to do something multiple times faster like flinging bismuth diamagnetic mold releaser onto tetris piece molds, predictably rotating a drexlerian AFM tip nubs on wheel as a
perimeterized atom or nanoobject placer or at more gradual velocities using an AFM tip to actually break apart a molecule for materials

some systems automatically geometrize (the shape causes the effect) to have a fast and a slow region, computers could do something with Milliken oil drop levitating nanopowder reynolds numbers, a fluid travels faster in the middle of a pipe than the
sides, if a nanoassembler wants to get a feed of some kind of atoms or nanoobjects at some velocity it could tap different areas of a pipe, this might or might hyperbolic paraboloids

Big chair/boat conformation molecules, optimally inorganic (Boron, Silicon, sulfur) benzene, not actually a gear but has possibilities, shift between a 3D crinkle boat and chair shapecrown ethers

At a travelling nanohampsterball

Inorganic Silicon polymer liquid crystals might be possible, twist and untwist, lengthening, also stiffen for better levers, it approaches being chemistry but one distal tip could have lots of charge or a dielectric paddle on it so it sticks to something
it is levering, alternating current-like thermoelectric electrostatic things are previously described so it could glom when it wants to push or pull and go neutral or repel when it wanted to move away

Also Si liquid crystal Shock absorbers

Network theory have process at an intermediate value that you can velocitize or slow, so if you are nano assembling on a turning merry go round you can slow the merry go round, which uncompresses and causes things to spread out more when they jiggle, or
speed it up to reduce stochastics and reduce the spontaneous travel length of material



As a human visible and hearable thing, Rotating Penny with acoustic pitch raising at each of a group of disks of sizes that make compatible notes together as their sound moves upward, a new to me thing



A physicist could calculate how big a thermoelectric would have to be to generate enough EM to do kerning (possibly pico positioning) of a diamagnetic atom or nanotechnology utility object, bismuth is the most diamagnetic element and flared tube with a
narrow tube could be kerned together and maybe even twist coupled (bayonet connector),

if that amount of EM is possible from a multiatom thermoelectric floating nanodust object (MTN) at the sparse argon then outer and interfacial coatings of bismuth atoms could be jiggled, opening seams, being a mold release agent (disassembling Tetris and
Lego's, or debuting new made ones), or like a sand compacting vibrator jiggling things into closer contact, the bismuth atoms would not need to be on the exterior it could be in the middle of a carpet roll or the center of a crystal to do diamagnetic
jiggling

Making MTNs make more electricity, At a thermoelectric nanotechnological object that looks like a Tetris piece one side can be ensconced at a big blob of atoms (heat sink), as a cool or warmth reservoir and the other side, positive or negative can face
the outside and be a surface, notably a voltage source that can be like an electrostatic cling film charge surface voltage clamp, using its voltage to stick to other things or be repelled by them,

Tetris piece membranes, there is a child's toy where shapes fit through holes like the circle piece fits through the circle hole but not the tetris piece or hexagon hole, making a tetris piece filter membrane like this around an gap area with an electret
chunk at the center causes just one shape of tetris piece to build up at that gap area, providing building materials even at a partially stochastic or brownian environment

There could also be electromagnetic kerning wiggle to fit tetris pieces into a pallet (like floaty MTN with a tetris piece shaped docking hole)

Peel apart films and voltage accumulation, reminiscent of the high voltages from sticky tape X-ray making unrollers and carpet shuffling, extremes of voltage are possible, stripes of different electrets st a carpet rollpeeling apart could cause
alternating current for more effective localized jiggle togethers and jiggle aparts, also electricity javelin or temperature active MTN at a carpet roll core could prompt unroll and peel apart from a much smaller voltage or temperature change

Unrolling a piezo or electrostatic peel-apart could also provide a longer duration and actual amounts of electrons (coloumbs) of static or conducted electrical charge than a thermoelectric MTN

Proton conduction might make porous nanosponges from the hydrogen atoms literally piling up on one side of something produce mg nanosized leaving gaps at the other side, if proton conduction works on big non hydrogen nuclei then thermoelectric
triggerable peel apart rolls can be among energy sources to concentrate elements and make elemental building material depots

Nanotechnology that builds things from rocks is beneficial as there are more rocks than other things, they also occur in outer space, and as far as I know are not alive, although I think they have paranormal pattern resonance effects

Superbases can take apart carbon dioxide, possibly at STP as can plasma level voltages as a source of carbon

Piezoelectric transducers can be made with nanotechnology, perhaps like using a nanoassembler to paint a floor of arbitrary size

Painting a thermoelectric floor of arbitrary size is also possible to provide conducted electricity or even wide area electrostatic charge, painting an extremely large 1 millimeter square thermoelectric on a rock, with micrometer sized separate areas of
electricity production produces a million elements that can be connected in series

metals from granite or other rocks, superacids and superbases exist, nanoassemblers that make these can apply them to rocks or also rock dust for hyper rapid leaching of preferred elements like metals with rock dust made from serrated popsicle stick
exploders, and, at risk of doing chemistry, metal azide that cause minute layers of rock to turn to powder, with nanograms of nitrogen explosives, is there a metallic (Aluminum, sodium)

nitrogen explosive, sodium azide or possibly nitrogen trichloride, nitroaluminum)

if proton conduction works at things bigger than hydrogen then rock dust might be mixed with a conductor and an electricity source to concentrate metal from literally moving the nuclei, aluminum containing clays are gelid and slippery, I think from
aluminum hydroxide gel

aluminum hydroxide, I think, makes a slippery water gel, so ground up. Comminuted, or ionized rock dust nanocomminuted with serrated popsicle stick exploders, inorganic nitrogen explosives, or anything that grinds could availabilize more elements like
metals to the nanoassemblers when the nanotechnology assemblers make aluminum hydroxide and coat rocks or rock dust with the aluminum hydroxide that, perhaps, picks up water

Also, is it possible to do gel electrophoresis with nanoassembler produced aluminum hydroxide, which then might deliquesce to make AlOH gel, if it functions, or the nanoassembler makes a different chromatography structure/chemical (calcium chloride
possibly) then defined areas of very high concentrations of rock dust element components are produced, like I may have read some granite is about 1% thorium, and sodium and aluminum and titanium are very frequent at rocks, so then the nanoassembler has
purified elements at knowable gel locations to build things out of

Proton conduction voltage doubler, perhaps, Voltage doublers made from diodes exist, is it possible to make a chunk-shape sortation membrane that sorts physically the proton conduction materials, if so perhaps proton conductors adjacent to these could
experience double the input volume of protons, analogous to a current doubler but not electrons

A physicist would be able to calculate how long floaty nanodust thermoelectric MTNs float, at sparse argon

Series arrays of thermoelectrets producing plasma producing voltages that do plasma deposition of elements onto roll up carpets could benefit nanoassemblers, I'd the unrolled carpet has Tetris piece hollows in it those molds could mass produce Tetris
pieces, including diamond Tetris pieces

A less than 9 nanometer magnetic object is published, that is likely eentsier than 360 picometers per Fe2O3, so 9x9x9x3 wish atoms, or less as the crystal would have between vertex space, so less 2187

Atoms per entire spin homogenous magnetic domain, one spin electron is detectable with (jiggles) an AFM tip, that supports the very near field use of diamagnetism to jiggle things like mold release bismuth coatings, and diamagnetically jiggling things
together or apart

At some sparse gases like nitrogen and deuterium, but not sparse argon, getter boxes (volumetric produce vacuum, utilizable at plasma element deposition

Piezo floor flingers put all the things that pass their Tetris filter and MTN pallets back into the sparse argon air, notably thermoelectric electrostatic voltage clamped pallets (MTN)

Besides sparse argon air, other possibilities for a 3D nanoassembler internal medium are nitrogen, deuterium D2 gas, "ball pit" 3x3x3 atom spheres (or some size far from the resonant frequency of the Tetris pieces, unless of course you want to take them
apart) made of SiO2 Al2O3, the spherical version of whatever the silicon molecule is that arises from "magic rocks" (precipitate of sodium silicate), possibly with a piezoelectric or electret floor or wall causing a fluidized bed like but actually kind
of like 3D air popper popcorn environment, thermoelectric piezoelectric floor could have zones like a grid, with on/offability

A variety of nanoassembler rather than having a floor or electret or thermoelectric piezoelectric floor would actually construct something beneath it and the nanoassembler would rise with the accumulation of product beneath it

MTN floaty pallet has a Tetris piece or larger nanoobject voltage clamped to it, then declamps or even repels it into place

Macroscopically perhaps the Milliken oil drop experiment could sort floaty MTN pallet layers at a fluidized bed, Drexler might make photovoltaic like energy from radiometers (light Spinny bicolor rotors at science museums)



3d Tetris program rotates and drops 3d Tetris pieces, so what are ways to rotate a few hundred or thousand atom thing without a connector

Bumpy funnels, peristaltic funnels, plural hingy bendies

Capacitor plates

Isotope communication, make plral peristaltic funnels grind up the product

Getting around crystal form and lattice

Two layer spin swirl flat plane diamagnetic as turntable

Longevity technology, some MRI machines are 7 Tesla, although it is possible the person's head is a meter from the magnet, square of the distance seems to suggest that being 1000 millimeters away from the magnet is one millionth the field strength, so a
human gets a light dose of magnetism, that said, DNA is diamagnetic and the DNA coil changes between different liquid crystal phases and the pitch of the DNA coil changes, so, to find out if different phases of DNA and their curliness has any effect on
longevity they could put C elegans, yeast, and mice 1 mm away from a big magnet like a 7 Tesla magnet and see if there are any longevity changes, if there are then drugs could be used to create that longevizing DNA morphology and curl pitch, if however
the curl pitch change is deleterious then they could test the opposite direction of pitch and DNA phase (like cholesteric liquid crystal) to find out if more morphology the other way caused greater longevity, if so drugs or genes that effect DNA pitch
could be new longevity drugs and agent


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