If the first laser foil has refractive index or negative refractive index that focuses the percussing laser onto the next laser foil. Making the second laser foil to have the opposite of a transparency grating causes immediate higher amplitude laser
percussing from higher laser concentration and percussing. At a crystalline metal laser foil the crystal face the laser reaches (i have heard of 111 crystal face) could effect laser percussion effects on the foil, making many more particles, like pions->
muons occur as an output. Another possibility is to simply make the entire first laser foil, or an optical element, a holographic grating that multiplies a single 1-11 watt laser into thousands or millions of spatially separate dot-beams. A million dot
beams could produce a million times more pions->muons, useful in muon technologies like muontricity, if the frequency of femtosecond pulse laser foil percussing can be raised to a million laser percusses per second or higher than the amount of muons
produced from pions becomes a trillion times larger from the combination of dot beams and 1MHz frequency of the femtosecond laser pulses. Replacement of electrons with muons at chemistry, and noting muon atoms are 200 times smaller than electrons there
is lots of all new muon atom chemistry, including catalysts. Multiply retroreflected muon beams travelling through ch4 gas could cause 1 or more of the atoms at CH4 to be a 200 times smaller atom, which very extremely destabilizes the CH4, causing the
ch4 molecules to be willing to combine with each other to make more valuable longer hydrocarbons.

Lasered PMMA enterosorbents, swell in gi tact and have tremendous dendritic channel sorface area optimally higher than activated carbon. Enterosorbents are published as making mice live 40% longer, PMMA or other polymer that swells to 2K its original
volume could make a .5 gram pill occupy the volume of 2 Kg of activated carbon when it puffs up. PMMA is optically transparent so 3D channelizing the new enterosorbent with lasers is likely to work well, it could be cheap to holographically, with a
single laser exposure laser dendrify and channelize 100 gram PMMA ingots that are then ground to optimally sized powder for putting in capsules. Enteric capsules might be used to keep the enterosorbent from absorbing stomach contents. The new
enterosorbent is then tested on marmosets and human (Homo sapiens and branch species) age batched volunteers. Its possible that the very highest dose potency enterosorbents would have the very largest amount of dendritic and connector surface area,
suggesting subwavelength of light laser zapping from metamaterials could raise the fineness of feature size an order of magnitude, making a 40 mg entersorbent pill sequester 2 pounds of lower gi tract digesta. The 40 mg pill could be an enteric coated
fizzy pill to optimize distribution.

CAD based Holograms of beamsplitter elements at a dot plurality of a billion beamsplitter elements produce a large plurality of quantum entangled photon pairs for technologies like arrays of delayed choice quantum eraser, MWI test, and Y shaped fiber
optic communication over networks. Computers 1 and 2 can be at branches of the Y and share state 10,000 times faster than the speed of light just from their particular photon at the paired photons, femtosecond lasers could be used for trillion cycles per
second laser pulse data narrowness. Half lead and half lag photon pairs could be used for computer 1 and computer 2 so either one could lead or receive the bit change. Also i think it is possible to use nested sequential beamsplitters to address 64 bits
simultaneously, assisting the computers in their communication.


mRNAs of different sexually excited states in rodents are published, they could try getting both fMRI light up area during human (Homo sapiens and branch species) female orgasm and mRNA profiles and their associated proteins and receptors of marmoset
female orgasms and create a drug suite that gives humans, male or female, the experience of female multiple orgasms. Sexually experienced orgasmic women could critique and grow the multiple female orgasm suite of drugs so that at 99.9% of them the sexual
excitement and orgasm quality is better from the protein or small molecule or peptide drug suite alone, and the drug suite with one or more partners having sex is even better than the drug suite alone.

Topical fast penetrating NMN, NR, NAD, and atp could all be tested to see if they, or neural/nerve stimulants like acetylcholine drugs or glutamate drugs increase the pleasurable sense of touch, after harmless or beneficial topical drugs that increase
the pleasurable sense of touch are found they could be made into ingredients for a bodywash, sexual pleasure entire body surface oil or massage oil, or at high dose potency drugs (fluorination, ethynylization, cell membrane passing moieties or peptides)
a single drug michael reaction to keratin (like transparent henna) diffuses the enhanced pleasure drug at all body surface through the skin for 3-6 months. It is a whole body surface technology but there could be additional concentrations at the nipples,
breasts, other erogenous zones, and genitals. Whether you are simply having a hug, getting a massage, or making out with kissing, or having sex pleasurable activity at nerves would go up.

Ultrasonic motion patterns and oscillations, chladni 3D forms could be used to power spherical 720° of motion vehicle and other spherical rollers. Similar to replacing wheels at an electric vehicle with giant electromagnetically motionized spheres. The
advantage is that vehicles can travel 360°, instantly parking sideways or changing lanes much faster, there are also safety advantage because computer software driving the car can, if it senses 3% chance or higher of a collision it can abruptly change
course to avoid the collision. Also there can be a retracted central trigroup of wheel-balls that deretracts while the usual wheel balls are electromagnetically lifted up out of contact with the road. Some ways to make motionizing wheel-spheres include
using inductive electricity to energize the windings of the wheel-balls, genetic algorithms could also develop the noncoil magnetic windings that cause 720° of wheel ball movement. An engineer utilizing a genetic algorithm could include magnetic
metamaterials in their genetic algorithm seeds to introduce magnetic beamforming, superlensing, and magnetic reflection to the genetic algorithm. At both the replacement for the stator, as well as the wheel-ball itself. It could be as simple as the
opposite of a whiffle ball, where instead of holes there are beneath the surface electromagnetic windings called nubs, or 3D printed conduction pathways and magnetic metamaterials. The external magnetic field to the wheel-ball windings, noting the
windings are powered with inductive electricity, pushes up, down sideways, and Z direction, or yaw roll pitch at the internal nubs of the wheel ball

Thinking of improvements to flush toilets. The toilet could have two handles one silver, one yellow metal. If the person only pees they use the yellow metal handle and the water used to flush is only 1/4 the usual amount at a 2020 low flow toilet. If it
is poo, then the person uses the silver handle to flush at 111% of 2020AD low flow toilets. Which could be effective at almost always keeping the toilet unclogged. Together as a ratio of 3 pees per poo, that is near using 1/2 the water just from having a
two handle system. I just looked on the internet and duoflush styles already exist.

Also, genetic algorithms could be used at toilet engineering to likely get another 14-30% greater water efficiency out of it, noting a toilet swirl is just a little like the marine propellers that improved 30% from genetic algorithm design



Adaptive stochastic Ram memory, use bitwise comparators to upgrade a stochastic or learned 64 bit memory cell from anything from uniform spekel pattarens to learned most likely to contain a leading 1 or 0, mid sequence 1 or 0 value, preloading, then as a
really really fast logic operation compare the 64 bit memory word with its preform and update only those bits that are not prevalued accurately at the 64 bit word. Also, another bit distribution patter could be related to: "Newcomb–Benford law, the
law of anomalous numbers, or the first-digit law, is an observation that in many real-life sets of numerical data, the leading digit is likely to be small.[1] In sets that obey the law, the number 1 appears as the leading significant digit about 30 %
of the time, while 9 appears as the leading significant digit less than 5 % of the time". Whare ways to more efficiently trst RAM ways to do this that double hard drive writing and possibly reading velocity are have a physical write head adjacent to a
read head or four so everytime a 1 or 0 is written the bit next to it is measured up to 4 bits distally, about 1/2 the time the next bit or even next all 4 bits won't need writing, and the writehead can zoom past them, now i think this won't work because
hard drives spin at uniform velocity.

Longevity technology: LKM512 yogurt is published as causing 85-95% greater longevity at mice. A simple improvement to LKM512 as a probiotic or yogurt is to breed and filter versions of the bacteria that are variously half and double the physical size, as
well as tolerant of growing at much higher conentrations (very thick 3-7 times concentrated Icelandic yogurt style) then test them on mice to see which of large, original, and small sizes and Icelandic versions cause the greatest longevity increase.
Small size has much more surface area to do surface receptor things, and may reproduce faster, while large size could produce more elaborate chemicals. The icelandic 3-7 times higher concentration may be like feeding mice a much higher dose. Its my
perception that when people eat yogurt they just swallow it. That leads to the possibility of an lkm512 lipid mousse, also known as a pudding that contains lots of vegetable oil, or a delicious LKM512 live culture liposomal drink that could be orders of
magnitude more effective at passing the stomach undigested. However, it is possible that the stomach digestion of the Lkm512 yogurt potentiates or changes its chemistry to be longevizing. A way to find out is to double dose the yogurt and compare the
longevity effects to a (single dose of yogurt with a single dose of pudding) if they longevize the same amount then the effect of stomach digestion on the yogurts active longevization is minimal. Its possible they will make a profitable Lkm512 probiotic
pill and verify that it also longevizes mice. As a side thing, Lkm512 bacteria yogurt contains a lot of spermadine, yet pure spermidine administered to lab mammals only increases their lifespan 10% rather than 8-% - 95% like the yogurt, this could have
many sources, but one possibility is a spermadine enantiomer or different mid-WW location for the mid area nitrogen containing branch.

Better generators and motors from interleaved gig air-capacitor like or (==0=O=0==) knobby dowels placed staggered together that interleave geometry at the rotor and stator of generator. Theoretically this can cause the magnetic interface between the
stator and the rotor to have 64-128 times the usual tube in hole stator and rotor geometry shared area. Two orders of magnitude more magnetic induction surface could harvest more energy from torque at a generator, and genetic algorithms could be used,
with magnetic metamaterials. At a motor, the motor might provide more torque for a given mass of windings, making smaller higher power motors possible

Picometer AFM stage positioning with metamaterial subwavelength of light alignment grids and recticles: The metamaterial is able to cast perhaps, perhaps not, photonic subwavelength reticles 1/10 the size of an immersion lens (2 nm) or 200 picometers,
then after the acoustically damped linear motor uses reticle alignment a piezoelectric anti-lever turns a big 100 picometer flexion into a 11-40 picometer flexion. Individual carbon atoms are about 15 picometers in diameters and many atomic force
microscopes ive seen have processed imaging of carbon atoms so large you can see the gaps between the spheres.

transpareny gratings on first refractive or metamaterial laser foil

It is possible that muonic atoms being 200 times smaller radius makes them easier to fuse together for fusion power, with much lower fusion temperatures and energy inputs, making breakeven and energy surplus occur with much less input energy. Plural
laser foil pion->muon generators could provide a continuous stream of muons, focused with magnetism, to always make the fusible atoms be 200 times smaller.
[/NOTE]

[NOTE]
Could electroless plating do new things if it was, without being electroplating, electron enriched. in combination with the main metal to be plated could say a 1-9% solution of potassiumSe, or colloidal quantum dot sized Se metal cause better new plate
out effects or velocities? Lasers or holograms or light output of metamaterial superlenses would illuminate the plating fluid or workpiece, giving new smaller characteristics to the plated structures formed, including 3D forms.

I do not know if enantiomers can be be concentratrated with electroless plating, but this, "position and chemical identity of the organic layer terminal group were important. A copper layer was deposited on 4-mercaptobenzoic acid but not on 3-
mercaptobenzoic acid" an isomer, is slightly similar to enantiomer concentrating plating

I saw a working image of a 3D sphere gear kind of like a ridged mechanical mouseball. You could, i think, drive the rotation of the ball a plurality of ways if three manual mouse pickups were instead made to be powered gears. Then attached to and driving
a right/left/diagonal T motion delta faucet the geared mechanical mouseball drive could combine or single source different fluids at the fancied-up delta faucet it is driving, possibly 9 or more combinable pipes. One possible use is chemical process
industries liquid, gas, mixtures. Another possible use of gear driven, or ultrasonic gear driven 9 pipe delta faucets is making microfluidics reactors with the fewest parts. Simultaneous but proportioned ingredient flow at food manufacturing is also
possible. Another possibility is self-cleaning piping from having one of the 9 delta faucet tubes/pipes be water or cleaning agent like H2O2 water.

To keep pipe joints and faucets from leaking, a permanent magnetic thin washer and a durably magnetic polymer elastomeric washer of same repelled pole could be placed, stacked, together. The elastomer washer would always seek to push away, pressing it
onto the sides of the tube, and pressing it into the farther side of the coupling. This active pressing on three sides of the magnetic elastomer washer stops leaks. Based on 1/100th diameter of 1¢ alibaba disk magnet (1 tesla) the two part magnetic
washers could be 200-499 washers per cent. More elaborate shapes of magnetic washers could be at a 9 pipepipe mechanically adjusted delta faucet. Genetic algorithms could further improve leakless PSI, durability, affordability and morphology of magnetic
two part washers. (Sandwich cookie i|i with sticky-outy filling: two highly attracted magnetic ultra thin micrometer thin disks, possibly neodymium iron boron magnets squeeze a cheaper nonmagnetic elastomer between them, causing washer continuous contact
of sides). Magnetic particle nylon could be used at 9 tube/pipe delta faucets. Among many uses for magnetic washers not yet mentioned are fuel line connectors for aircraft and other vehicles as well as all hydraulic equipment.

Kitchen ovens could have all sides warmth mirror reflectors so they reach preheat air temperatures faster, if the enamel paint is IR transparent and applied to mirror finish cheap stamped metal walls then the wall mirror shapes of optical dishes and
bulges can focus and resend the radiative warmth back to the air in the mid oven. The walls of the oven could be like those air core cookie sheets, and be thermally insulative after their reflective surface even when made out of cheap stamped metal.
People might have a wait for preheat time half or less than a 20Th century dwelling oven, and switchable groups of angled heating element tubes, that now look beveled,C\ could fresnel-like concentrate most of their emitted warmth towards mid oven, saving
energy

Liquid metal coatings on stovetop @ elements, and pot bases cause much faster warmth transmission. A physiologically harmless liquid metal alloy, like bismuth gallium germanium, which becomes liquid at 68°F coats the stovetop elements, and makes much
better contact with the pot base. I noticed that if you press down on a pot of near boiling water it makes more bubbles and more sound. I think thats from contacting more rangetop surface area. Liquid metal surface rangetops would have the greatest
contact area, especially when used with a liquid metal surface pot, followed by silver or argentium sputter coated nano-velvetized rangetop surfaces. Argentium is a 1-3% germanium alloy of silver that omits tarnishing. Putting 100 mg of it on the surface
of each range element or the bottom of a pot is about 9-11¢. Argentium is harder than silver which supports the cheap mass parallel holographic engravings of the kind of gratings that cause metal to absorb radiant heat photon wavelengths. The advantage
of all of these is faster warmth conduction from a physiologically harmless metal coating.

At gas/ch4 energized rangetop discs it is possible that ultrasound could be used to change the shape of the energy releasing hot plasma column, or even optimize heat transfer turbulent fluid flow at the plasma while maintaining or improving on plasma
columns. Another possibility is that ultrasound wiggling could drive more air through the air apertures of the gas rangetop element, increasing efficiency the way that that different Ch4/air ratios do. This ultrasonic plasma shaping for efficiency could
also be applied to CH4 water heaters

Another use for 68 °F liquid metal is as a heat exchanger coating on refrigerators, heat pumps, and air conditioners. With or without unperceivable ultrasonic vibration to increase turbulent flow of the surface of the heat exchanger. Efficiency gains
and cooler temperatures at lighter weight are possible.

One fantastically unlikely idea is finding a eutectic nontoxic liquid metal that boils below STP. One related system is a liquid metal alloy that contain metal hydride microparticles. These are published as making metals foam, from the released hydrogen
so they would cause foaming at a 68°F liquid metal as well.

Upconversion of deep ir to heatless frequencies using quantum dots or triple harmonic generation crystals, at a fridge this would cool the working fluid when passed through a long quantum dot or THG sponge tube, that cooling could come before or after
compression

Metamaterial photon and electron reflectors could do more than just reflect they could kick, upconvert, the photons and electrons they meet far out of the recombination way, actively cooling a system that meets the metamaterials, energy to kick or
upconvert the photons would come from a supplemental EM field, and the effect of kicking a photon or electron out at a nonretroreflective angle cools the source object. If the source object can be directly attached to the pumped metamaterial mirror then
this causes a new cooling device completely different than a peltier device, if the metamaterial cooling kick mirrors can be stacked or arranged then the EM powered stack cools even further. peltier cooling stacks with simultaneous metamaterial mirror
cooling of the peltier warm side could cool things to below liquid nitrogen temperatures, creating many new applications including solid state cooled superconductors, including computer chips. Also there could be an effect where transparency producing
metal gratings that make metal transparent at greater depth to light could have an accompanying similar effect of being much more likely to much more frequently emit radiative warmth photons of low frequencies. That suggests that object-to-be-cooled or
peltier warmsides could have these low energy radiative photon passing gratings on them to increase the rate of radiative cooling that the energized metamaterial then kicks out of the way. Another negative refractive index technology uses combined
refractive index materials to match the refractive index of air, causing much more energy transmission to the air (order of magnitude), such a metamaterial placed on the object to be cooled, or a peltier warm side could cause an impressive to me order of
magnitude faster radiative cooling. This refractive index matcher could precede the metamaterial photon and electron kicking-out-of-the-way powered mirror, which then gets to kick an order of magnitude more radiative photons out of the way. This
velocitizes cooling, (• -
A completely different version of this is to put the object to be cooled (with metamaterial air refraction index matching) near, but not at the focus of an undulating parabolic mirror or fresnel retroreflective lens rquivalent, then, at the focus put a
kick it out of the way mirror, THG crystal, or both. The object to be cooled then cools off fast. The sytem can be surrounded with a shell of aerogel or a dewar construction to keep warmth from leaking in. The object to be cooled could be the bulky
heatsink of a computer chip, the computer chip itself, the warm sides of a nested peltier cooler, a laser like a communications laser that a person would like to dejitter with cooling, a particle making laser pulse on foil metal part, a superconductor
or also superconductive device, an imaging chip, an atomic force microscope tip, when freeze drying sperm or other cells, another even simpler metamaterial based refrigerator is (• m, where the metamaterial mirror is just replaced with a computer
projector style multi micrometer mirror array (a kind of IC), where metamaterials physically on the array mirrors cause air refractive index matching for much higher reflectance, another possibility is a simple angled silver mirror or tarnish resistant
argentium angled mirror that is parabolic and focuses all the radiative warmth photons it gets far outside the object to be cooled. The multimirror array (chip) has advantages in that it can use angles to grab all the light at the main ( parabolic mirror
foci and angle it out out of the system. All of the silver or argentium angled mirror, multimirror chip, or directly focusing the main parabola outside the system benefit from using refractive index of air metamaterials to send an order of magnitude more
radiated warmth photons out of the system. How big is it? There are single parabola reflector approaches and muliply parallel parabola approaches. A 1 cm^2 IC on .5cm thick nested peltier elements, in a clamshell of 2 parabolas, one with a hole in it to
export the beam, is likely to be 1.5 cm in diameter. To make it as cheap as possible the 3D printed air refractive index matching metamaterial is flexible like adhesive tape tube and has a heat shrink polymer interval, you just slip the bare unpachaged
chip into the 1 mm thick metamaterials rectangular tube sleeve and gently warm it to get full front and back chip surface order of magnitude increase in radiated warmth photons/second. Argentium or ir reflecting gold sputtering coats the clamshell
mirrors at less than a milligram. That's 1/10th of a cent of argentium, and 2.4¢ for gold. The polymer clamshell is 1/10 of 1 ¢, and the public domain 3D printed metamaterial is 100-1K$ per kilogram or about $2 to 20 cents for the two grams of
refractive index matching heat shrink metamaterial tubing. Combined that is 22.5¢ to $2.025 for the gold version of an Ic cooler. With 40 cents to $4 for cooling a 1 Cm tall nest of peltier coolers to make about a CM^ 2 colder than liquid nitrogen
superconductive chip, laser, or laser metal foil refrigerator.
The most important improvement to efficiency would be to go from the utilized order of magnitude greater warmth radiation with metamaterial refractive index matching to two orders of magnitude greater radiated energy, making ICs 100 micrometers thick
instead of 1 mm assists with this, as would directly making a top and base layer of metamaterials on the chip right at the fab, a factor of 2 or 4 greater radiative cooling could come from making the computer chip half as thick or quarter as thick but
with double or quadruple surface area, if 5 Ghz silicon transistors can go 1000 times faster as superconductors then that quadrupled surface area is made up for from 250 times more computing per cm^2 and 5 terahz silicon transistors.

Another way to increase radiative photons is to make 1/4-1/8 of the ic real estate comparatively big parabolas of metal that go from bottom to top of the chip to get physically jostled by nonradiative heat, then pick up that jostling motion and reflect
it up the round tipped parabola to either chip top surface or chip base surface, kind of like a fiber optic and kind of like an echo in a tubular water well, each reverb on the heat vibrations parabolic column path could make radiatable warmth photons,
possibly carried by a transparent tube in the middle of each, like a windowy SiO2 optical fiber through the chip parabola to the chip surface, at chip surface there are two structures 1) a metamaterial tuned to match the refractive index of the air with
from-inner chip radiative warmth photons and 2) pillars with masses atop them that have transsferred the jostling thermal motion at the interior of the chip to very tall (micrometer) chevroned or high area surface texture. These tall columns then vibrate
out their jostles into breezy filtered air. Acoustic metamaterials exist so it may be possible to match vibrating pillars to couple with air to pass the vibrations on to the air an order of magnitude better. If that works then metamaterials at the
thermally conductive chip spanning parabolas could pick up an oder of magnitude more atomic jostles and retroflect/echo well them out to a chips surface, for the breezy tall metamaterial columns to dissipate, the optical core metal parabola columns could
have, at the chip surface a basement metamaterial reflective layer, then a flat metal all chip area metal plating, then a metamaterial refractive index of air matcher atop that, to radiate away the heat, and of course the tall jostle to air pillars
above that. The general effeçt is to use an entire 1/8 - 1/4 of the chip real estate to make it cool enough for high temperature superconductivity and clamshell refrigeration that increases speeds 1000 or more times, thentune to peak of justling
frequency

1/4 eentsy silver gallium pillars make it super jostle thermal conductive to surface, gradual parabol

Superconductive indium phosphide might be petahz transistors 1000 times faster than 1-7.5 terahz published indium phosphide devices

Picometer stage, shrink or grow it 1 picometer from laser cooling or laser warming an existing 100-200 picometer stage, upto 100 different laser coolers or warmers could be used individually or in groups to make 100 steps of 1 picometer each. I think the
warmth swell effect is from changing atom radius size, which has something like analog resolution, so even femtometer positional adjustments may be possible even though that is smaller than the radius of all the atoms i've heard of other than a muonic
atom

Some things like indium phosphide change their crystal structure to semiconducting under great pressure, so i was thinking, noting diamond anvil and hydraulic press experiments what a pressure vessel for a 1 cm^2 IC in a vessel might look like. Computer
circuits designed to survive induced electricity or have ground connectors for every transistor could be be made as the cookie filling between two copper or silver disks that are going through a quarter squisher lorentz emf field. Another simple
nonshocking approach is just putting the chips in a hydraulic pressure multiplier with thick walls, that has the advantage of being shockless, unlike rail gun pressurization systems. They can make 7.5 trillion cycle per second devices with indium
phosphide, what if there is a 140 times faster crystalline variant at some part of the phase diagram? That petahz computing (variously a thousand to 20,000 times faster than 2020AD computers) could justify the effort of pressurizing the semiconductors.
Some things seem kind of novel like taking a 3000 ton section of concrete bridge, having a sample placement area under one of the legs in a hydraulic tube then changing the position of the bridge with moving weights so it rests on only that one foot.
Based on alibaba such a 3000 ton semiconductor (like indium phosphide) pressurizing environment is only $42K,

Photoresists, could they be made from picopatterned metamaterials? A very normal metamaterial is the superlens which makes or resolves features 14% the size or less of the wavelength of light used on it, so, liking but doubting that to support 14% of 2nm
immersion lens feature light then metamaterial photoresists could edge features just 280 picometers in size, that is another 3.5 doublings of transistor smallness. The actual ingredients of the photoresist might resemble split circles of metal like
benzenes or dodecenes with small diameter metal atoms on them or DHA with metal atoms nearly identical to split metal circle shapes,

arabolic

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