[NOTE 42] Seeing inside a motile fertile sperm, or also eggs, scanning the DNA at the chromatin benefits benef
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Sun, Oct 18, 2020, 1:23 PM
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Seeing inside a motile fertile sperm, or also eggs, scanning the DNA at the chromatin benefits beneficial eugenics; the quantum camera as described at new scientist magazine ( article contains the words "figurine" and "spin") can see light that does not have a return pathway (no far side sensors, light diffusion and scattering, no mirrors), the light can just go into the chromatin and be absorbed, a few thousand words on at this note I write about ways a light microscope could have resolving power/resolution less than 1 nanometer, if that works then combining it with a quantum camera shows some of what is going on with the chromatin of the sperm, DNA reading could be possible by attaching single stranded DNA (or some other thing that matches DNA) to a quantum dot and using a UV quantum camera to see the quantum dots that are matched to which DNA, quantum dots of 20-120 atoms might be particularly good at diffusing into and throughout chromatin at sperm and eggs
Quantum dots with two energy levels simultaneously that do new things; silver has two mobile electrons rather than just one, so a silver containing quantum dot like ZnSeAg, or if it possible AgSe(AgS is a semiconductor) has some kind of two electron effect which may be useful; also, organic quantum dots already exist, but/and (niftily) there are two electron systems/molecules like chlorophyll that exist; to keep the size near 50 atoms maybe donut shaped chlorophyll (side edges connected to make overall toroidal molecule) or polymers or stuffed olives (Qd with leaky chlorophyll polymer core) could be quantum dots; some quantum dots are coated so it could be possible to coat toroidal chlorophyll or other 2 electron system organic chemical quantum dots with a long life coating, the coating on the organic quantum dot could even possibly be "connected" to the organic quantum dot with the same kind of hydrogen bonding that connects half-rungs of DNA together
Spin trap molecule quantum dots, there are organic chemical spin trap molecules (PBN is one),and organic quantum dots, if a quantum dot can be made from, or have spin trap attributes then because of the Pauli exclusion principle and bandgap things spin trap quantum dots may do something completely new (magnetic?; narrower spectral output; atom based logic (perhaps spin up or down; for example at a silver atom (2e stem) there could be 4 possible spin configurations from attaching, or nearnessizing Ag or AgSe or just pure Ag atom to a spin trap)
Could a 50 atom - 10nM dendritic polymer of an organic chemical be a quantum dot? like maybe donut shaped chlorophyll polymer (side edges connected to make overall toroidal molecule ); organic quantum dots already exist
Using quantum dots to see inside sperm; Nubby primer like 1/2 DNA ladder or a 4 bases could be all very loose wobble codons so the QD-matching -nucleotide of new form could glom to the supercoiled DNA in sperm chromatin but come off easily so as to omit risk at the sperm which is being characterized so it can be used at actual fertilization; quantum dot attached to oligonucleotide sequences have already been used to detect DNA sequences in a human gene, as a technology washing a plate with 100k sperm on it (and using harmless osmosis and transport enhancers)builds up different simultaneous spectra emissions and if there is a sperm with say all 8 preferred genes you can spot that sperm with flow cytometry (UV light at the flow cytometer makes the matched DNA quantum dots fluoresce)
You can also just make the diploid chromosomes at the tissue culture that grows sperm to be identical and genetically enhanced or also genetically optimized, any of the sperm have identically wonderful and beneficial genes
I read they can grow fertile motile mouse sperm at tissue culture, these are technologies that may assist with tissue culture of genetically enhanced as well as genetically optimized sperm:
MRNA at missing step; what is the mRNA profile between healthy human spermatid to swimming spermatozooa, at human sperm tissue culture is the messenger RNA profile different
Has anyone tried sonicating (blenderizing) healthy spermatids, fractionating the results and then adding the "well spermatid" liquid/solid fractions to human sperm tissue culture at a 3:1 ratio?
Double juice 99th percentile is what I describe as finding humans with double the median amount of sperm production, then doing mRNA profiling of their sperm generating tissues, possibly even at the spermatid stage then comparing their mRNA profile to the IPS (induced pluripotent cells) tissue culture spermatids; then the tissue culture spermatids or other cell types on the path to spermatozoa are given RNA drugs to mimic the high efficiency sperm generating tissue and high efficiency spermatid profile;
Male fetus testis; male 14 year old testis, this is extra ignorant but many tissue implants prosper and youthify when implanted into much younger tissues and bodies, it is possible using chimpanzee fetuses to remove and culture prenatal testicular tissue, raising human sperm in that, with the medium supplemented with testosterone (among other things), if that works then an all-human system based on tissue culture of aborted or preterm stillbirth is better to utilize; also, at the source of the fetal tissue it is beneficial due to epigenetic effects to gather fetal tissues from parents at the 99th percentile of intelligence (g, like IQ) and the 95th percentile of subjective well being (happiness) places like MIT, Caltech, Stanford, Oxford are places to find the women that frequently fit these criteria
It is possible that existing tissue culture of sperm already works, it is just a one per 100k or million spermatids making spermatozooa (human spermatid culture is previously accomplished) that develop to make motile fertile sperm; using flow cytometry of a tissue culture (gentle) homogenate they could find anything with a tail, if they find some then those protocols could be improved;
There is a chance spermatids will grow at *liquid* tissue culture from induced pluripotent stem cells (IPS), then using 96 well plates and swimming sperm specific dyes 10,000 growth media variations can be tried with automated micro pipetting/microfluidics to get chemical facts on what gets them to the motile, fertile spermatazooa stage
Noting the kind of simple idea that males with 99th percentile of successful spermatogenesis may have different levels of various sperm development chemicals, using an anesthetized needle biopsy and high pay a tissue sample from several such people can be gotten and used to find a shared data trend which is then used to guide tissue culture chemical levels and make tissue culture sperm higher in number at genetically enhanced or also genetically optimized sperm tissue culture; also noting the data trend of what chemicals and how much of them, compared with median human producers of sperm is, it is possible to extend those trends (graph lines) further using even higher doses of the spermatogenic chemicals to produce even higher numbers of genetically enhanced or optimized sperm even more affordably
Ultrasonics, or even regular sonics can be used to heighten diffusion of chemicals; at energy and frequency levels that do not lyse sperm tissue culture tissue, using ultrasonics/sonics could cause larger amounts of material to diffuse from various nurse cells (sertoli, some kind of tubule) into the intracyte space with the sperm growing at it causing the developing sperm cells to get larger amounts of growth and maturation factors which could benefit the production of motile fertile genetically enhanced or genetically optimized spermatozooa; one simple approach is to modify the spermatogenesis cytes to make BFP or GFP (green fluorescent protein); put a small ultrasonic transducer at the center of a tissue culture plate or flask then notice any color changes (visual color patterns) associated with more or better spermatogenic "differentiation"; also it is possible mature motile sperm have unique proteins (tail, tail cord) that could be visually isolated with a fluorescent protein attached to an anti-tail protein antibody; if a computer camera detects it something is going right; the distance of indicator color from the transducer is a chemically sampleable guide to the chemical blends and ratios most effective at generating motile, fertile sperm
There are a number of voluntary eununchs at 2020 USA, they could get volunteers, and then put their testicles on "life support" sort of like a heart lung machine then do experiments with the isolated living testicles (which will be absent immune rejection of transplanted tissue from being removed from their source body's immune system)like transplanting tissue cultured spermatids or entire tissue slivers into the testicles to see if they develop further into spermatozooa
The Voluntary eunuchs testicles on tubes could be used to do parabiosis, with a spermatid tissue culture as the parabiosis partner, even with the blood testis barrier it is OK to try
Maca; there are a variety of supplements (herbs, possibly fungi and others) that may have been published as increasing male fertility, perhaps sperm count is even measured in the literature, if there some that do this, they could be added to sperm culture media, maca is one that I read about, with at least 6 others mentioned as increasing sperm count at published peer reviewed papers
OK to try
Chimpanzee try
Liquid cultute.,gentle orbital shaker, double juice 2 4 11 ratio to tissue culture sperm;
RNA block on spermatogenisis, juice builds up, transfer new tissue to double juice medium
RNA block to testis barrier more stuff diffuses
Best flavor to lesbians (most preferred flavor of lesbians)vaginal juices umami peptides and other flavors sweetness peptides at vaginal juice; germline engineering to cause all homo sapiens to have those lesbian preferred flavors at vaginal wetness fluid
The photoelectric effect is well known, could there be a photo dielectric effect? I can think of a way so simplistic it does not qualify (classification from light), I think people that do plasmonics research may have already done something similar, an unlikely possibility is embedding superacids (dry chemicals that have a pH less than, like-2000 or something)in insulators with a conducting path to the superacid core,
A way to screen billions of potential dielectrics is to load an inkjet printer with 11 different elements and chemicals then print out a stepwise variation on their recombinations and combinations, at 9600 DPI this is about 11 billion test cells on a 300 mm wafer; camphor sublimates so print the chemical recombination test pattern on camphor or some better thing that also sublimates, then press-apply the test grid onto a wafer with a billion conductive pads (or transistors on it, anneal until the inkjet printed material is an amourphous or crystalline solid on the conductive pad layer, the wafer also has something similar to an "address line demultiplexor" so the potential dielectrics can be individually addressed, then CVD (IC process) a top layer of arrayed conductors onto the sandwich this makes a test grid of a billion (or more) things like fuses, apply voltage and current to breakdown the fuses, the best insulator materials can be found this way; instead of conductive pads quite large (9600*9600 transistors/inch^2) and use the 9600 dpi new possible dielectrics test grid as a dielectric layer on those big transistors, poll, and see what works; this might because if a much simpler version had been tried in 1975 with just 91 solo elements hafnium dioxide would have been found decades earlier, so it is possible the 9600 DPI screening test could get a decade or two ahead of dielectric function quite rapidly
Flurinated ceramics as being surfaces; ball bearings silicon nitride
Optical to semiconductor interconnects at optical computing; I do not know the effect of a tapered waveguide at UV frequencies __==> it is possible that noting most Semiconductors have a photoelectric effect or can be made to have one, terminating the very small open tip of a tapered waveguide at a transistor (2020 7 nM) could cause the transistor to flip on/off or otherwise change, as a further possible improvement the tapering waveguide could have a quantum dot at its open tip the emits light when the:too narrow to pass UV, but possibly passes UV at tail of distribution energies, or makes some kind of "virtual" or evanescent wave that is able to reach the quantum dot and emit light at the quantum dot which at 4nM is smaller than the transistor (another possibility is a 10nM quantum dot which is much easier to make on silicon) the light then activates the transistor and is an optical to semiconductor interconnect; it might work without the quantum dot at all and be easier to manufacture
Chinese fingertrap puzzle nanotechnology, gets stronger, narrower when you pull on it, so at atmic stochastice level a side bump makes it stronger nested half domes with trigroup poking through ring are stabler and stronger the more stuff that runs into them; it can make stuff, put two jello rods into a CFP stochastically buffet, it lengthens and narrows and that pushes the jello strings together "welding them" if its full of compressible powder it molds things 360 but from tip flopping from stochastics, vanes on tips would catch more pully side thumps so is it possible to weave an entire CFP basket or ravioli where if you dent it it becomes stronger, apetures, if any shrink, (valving predictably from stochastics; creating a lumen space that admits fewer stochastic balls when buffetted so buffets make less buffetors inside, genetic algothm optimizes CFP half domes, baskets, ravioli, at a basket the more buffets the tighter the lid, which is a little like a preservative or a selectable sequential chemical reactor if there are a plurality of CFP set to dump their contents together; the nanolong life of a dewar flask, in the 48-96 hours it takes to reach ambient temperature 10^23 x some big number disproportionately vast
Crystal in a CFP ravioli degrades much slower than outside basket from dents causing constriction, duolayer ravioli do something but what? Genetic algorithms could generate over billions of cycles cfps that aperture, iris, mold, do logic store thumps for energetic release,
What is the most parsimonious technology of a CFT there is something called the CFT suture which, as loop knot topology be a liitlest statement; it looks like an oscilloscope lissajous, but not really, can you make one out of light, no, but a digital like thing a horizontally viewed n n n n line of solitons
Indicator dye or quantum dots (quantum dots are published as able to respond to/make visible a single DNA base pair error) that can permeate fertization and locomotion capable spermatozooa chromatin well enough to read some base pairs, qd or isotpe qd library (50 atoms 2^50 different frequencies) (if qd fluoresce different intervals based on perhaps sizeshape,composition, coating then maybe 2.5 billion light frequencies and durations are possible which makes the computer camera that strobe reads it cheaper and more precise) attached to parsimonious RNA (skip the sugar, keep/modify to W-look the base, shrink the base so it is fewest atom thing (maybe turn the into WW) thing that will ladder (hydrogen bond) to dna, line up 1-3 of these a recognition sequence and attach to 2^50 isotope quantum dot,
math of correlating 1% of billion bp at chromatin with what gene that particular qd-riboseless recognizer says, do with a few billion qdr, really soak the thing, use sugarless parsimonious three base matcher on it or 2-11 sugarless parsimonious base, however long they can be and still work, osmotic and transport protein and oscillating diamagnetic ways to get the apt into the sperm or other cyte like an egg or a neuron
Has anyone tried slowing down or speeding up a ribosomes with a tail drug (protein nestling drug, a peptide, protein or RNA or oligomer, or single stranded DNA) that could be longevizing technology
At nuclear DNA if you change the epigenetics of mitochondrial genes to:make more mitochondria does that make more mitochondria increasing youthspan, healthspan, longevity as a gene therapy
Can you make a quantum dot that melts if you give it a gallium core or melts at 20f eutectic alloy core, at a DNA interrogator QD could melt off, CN/P as qd ingredients is kind of like food,or neutral to a cell
Test so women and girls can find out as much as 44/46 of their fetus' genome so if it has birth defects she can have an abortion, optimally with an RU-486 pill or similar from a test: a transdermal patch with lines that show up if there are serious birth defects, trisomy, and the seven other most frequent serious birth defects, it also has three lines (other birth defect, mental illness, achievement) with seven segments and the patch colorizes 0 to 7 segments to show how much of that there is; there is a pleasant tasting chewable pill, the transdermal patch also displays fun and interesting MBTI (Myers Briggs type indicator) kinds of content, the woman or girl applies the patch to her arm, stomach or thigh; the instructions say to take the pill and apply the patch that evening, and to remove the patch the next evening before bed; then the woman reads the patch and looks at the color lines on the patch, if she does not like what she sees she has time to get an RU-486(or better pill) and terminate (abort) the fetus early; if she is not fully reassured by the (other defect/mental illness/achievement) lines she can mail the used patch to the company for a full report for an extra fee (2020: $9.99); how it works
How the birth defect and personality variable, and other data patch works:
Maternal blood has circulating fetus DNA/cytes/tissue fragments, the pill causes the placenta to release some baby-side-of-the placenta material into the bloodstream (RNA drug that does very small, harmless apoptosis to the fetus side of the placenta, possibly with RNA-drug connected to cell penetrating peptide) so the amount of fetus DNA and cells is "orders of magnitude" higher for a few hours, the patch gets sweaty, has an anesthetic, and causes plasma to seep into it (dilute nair does this, and could be accompanied by something that attracts leukocytes like immune component:complement that the body already reacts to, perhaps Lipopolysaccharides are such a thing; basically the patch causes the least possible amount of oozy rash that is scarless) so the MBTI fun part is based on the woman or girl's actual physiological chemistry, likely including quantum dot oligomer DNA matching, the patch contains some slightly damp amount of the body fluid exudate to be automatically processed by the company's lab if she gets the full report, looking at the patch tells her a lot she would like to know, and she gets a feeling for the easy to read and like format of the personality report, and even if the fetus is fine, if she mails in the used patch she gets a personality report on the fetus/baby, and good ways the two of them can particularly enjoy themselves and enrich their lives; if there is a moderate problem on the OMA seven segment lines the patch report ($9.99 2020) will tell her things like which mental illness and how mild, the report will let her know about the availability of genetically enhanced or also genetically optimized sperm if she decides to terminate the pregnancy; what if the woman has "other"," mental illness" or very high beneficial achievement herself? There are three immediate options if the amount of segments is high 1) get the report, the lab can tell the difference between the woman or girl and her fetus 2) the technology may have improved enough to attach quantum dots or some other thing (methylene blue-ish thing) to a longer oligonucleotide or something different like a desugared nitro polybase that looks like w_w_w to a chemist 3) the layout of the patch is such that if she wears it for one overnight before taking the pilla different group of segment lines prominently labelled, "You" provides her with her own set of segment lines, if the fetus has better segments than her, that's something better but she would still be better off getting the report; the parts of this on alibaba are about 22 cents; genome sequencing is sort of 3-10$ (2020AD)
This is unlikely but the longevity drug metformin looks kind of like a W as a molecule, and if you remove the sugar from RNA:uridine you get a couple unsaturated cycles with nitrogen's on them, what if you removed the sugar from uridine, added some =O so it looked like cycle metformin, it might be some kind of new drug, possibly a longevity drug, also you could leave the uridine as it is, including the ribose sugar and "metforminize" the base part (=O), this might be a longevity drug that has preferential uptake at cells from looking like a uridine; halogenation could do something as well although fluouracil is a toxic anticancer drug, maybe it (they) are antiviral as zovirax is an anti-herpes drug
Microencapsulated sperm have, at approximately 100% sperm survival for one month at 68°F and placed in a farm animal's vagina they gradually release sperm and the farm animal gets pregnant; if the microcapsule had another ballooney smaller microcapsule that was pressurized inside it the balloon would push more sperm out so less sperm might be used to make the capsule, this has applications to human use as well
Kind of comic, but peltier modules are 10¢ on alibaba.com; 4*4 cm, you could cover a shallow food dish or plate with peltier modules and use it as a topless standalone fruit chilling plate or shallow dish so extra delicious chilled fruit could be grabbed anytime
I may have previously written that it is possible acoustic solitons could be used to find mineral resources like petroleum, I have heard of ground thumper acoustic mapping trucks and explosive based acoustic mapping, soliton thumper mapping could possibly be done at an angle to the ground (dig a hole. Direct thump at say 80 degrees rather than 90; map further away stuff (soliton) semi-laterally with raster like 110,100,90,80.70 degree sort of soliton beams; explosive solitons are likely possible as shaped charge explosives are well known,
Flashlight fingers is a way of saying light diffusion through tissue, do soliton lasers have less of a flashlight fingers effect, it is also possible with soliton lasers that a core beam stays detectable longer, this could be used at photonic brain readers (published) and light activated drugs at the body
Farmers benefit from crops that have fewer days of growth to become mature before harvest, some seeds when nicked have to my perception better sprouting yield and faster sprouting, bulk processing of seeds to be planted to have a laser drill almost into the germ but not quite (perhaps halftone dot pattern) could cause more rapid water uptake and earlier sprouting mass lasering of wheat, corn, rice seeds could shorten time to harvest a day
Noting value of earlier time to harvest, and the way putting clear cups on plants, or even just-planted seeds makes them grow better, drones could place cups or similar on plants automatically, to be more ecologically mild rather than polymer cups, oilpaper. (Vegetable Oil on paper is a light translucent material) could be used to make the cups; at alibaba.com polymer cups are 3/100ths of one cent each, the cups could be built with a ground penetrating stake on them so they do not blow away
There are a variety of water transport protein features (something like channels or porins)at the outer root cells of plants, these protein of channel's genes could be duplicated (multiple copy number) to make more of these channels making plants more drought tolerant and expanding the geographical range of growth of agricultural plants; new copies of the drought resistance genes are beneficial to place at multiple different chromosomes so drought tolerance genes have multiple backups, assuring continued higher fertility even when crossed with wild type in the wild
Probiotic soil additives already exist, on verification that LKM512 bacteria cause mammals to live longer LKM512 plasmid swapping (gene swapping) with the most effective known agricultural probiotic bacteria produces an LKM512 soil and simultaneously GI tract bacteria, so that as a longevity drug, just drinking water filtered from the mud or also soil on plant roots possibly causes the 90% lifespan extension of mice in humans; to make the water from LKM512 root mud supernatant obvious and popular the LKM512 soil and GI tract bacteria would produce a 99.9th percentile of deliciousness sweetness peptide; the mud/soil would be easy to find and sought out by people for it's flavor
Soliton producing mirror, think of a paper towel tube filled with optics (lenses or waveguides) with a prism at the non-light gathering end of the tube that sends it back out another tube, or,the light returning to where it entered through a waveguide at the same tube (ish, some horizontal or Y-axis translation might be of functionality); solitons can be produced with lenses or waveguides, I think,"soliton formation in optical quasi-crystals and at the boundaries of waveguide array structures are discussed", so the retroreflection coming out the tube is now a soliton, that soliton beam going back out the tube has new characteristics as a reflection or mirror, possibly it does not spread out (similarities to, but different than collimated light), perhaps contrast enhancement to a person looking at themselves in a mirror (or at a viewing monitor), also at radio, like phones with broadcast narrow area cells, higher effective power simultaneous with extended range, and higher phone and internet of things data rates, macro version is possible as well as IC scale microarrays (pixels the size of a wavelength of light), "high-amplitude soliton can be maintained in a stable steady state if energy is pumped to the soliton from a radio wave" suggesting a "pumped" soliton mirror could be possible with application to space telescopes, optical chips that are pumped, making them able to see less bright things, ability for the optical chip to cover a wider spectral range (I read they were looking for imagers that cover more of IR (UV also useful) from say taking existing .01 detectability (less than seeable/resolvable) frequencies and pumping them up to 100% brightness detectability, which has numerous applications besides space telescopes and satellite geoimaging, pumped soliton mirrors also produce more simultaneous frequencies (higher data rate) at optical fiber and repeaters and at-computer detectors from better detection, all based around:"high-amplitude soliton can be maintained in a stable steady state if energy is pumped to the soliton from a radio wave"
The pattern resonance effects of actually existing brighter, preciser, as well as pumped soliton mirrors at everday things has strong IT pattern effects as this is a new kind of mirror and the synchronization of people and things (what i call the IT pattern could be pumped mirror modulated as optimized and instantiated by globe spanning computers, software and AI), including pumping up of Pattern white, blue, and green zones, to benefit people, the less beneficial colors could be antinoded at the IT pattern mirror, guided as a soliton mirror, if there are areas of less light they could be pumped to have light, it is a white mirror,
At robots, including social companion robots, emitting a point cloud of laser beams then having them retroreflect (bounce off) things and then imaged at their pumped soliton imagers could give them the ability to see much farther distances and do emotion reading of all the faces in a crowd (Anbar's digital thermography truth detector), but with soliton imagers
Imaging at spatial sizes smaller than a wavelength of light; UV or blue input to top of tube activates a quantum dot placed directly on a transistor( 2020 5nM) at base of tube, when the QD lights up it switches the transistor, which is sensitive to the photoelectric effect
Sideways W light activates a quantum dot with the lengthwise donut bump at a ripple, that differs from the ripples per second frequency, donut bump at ripple changes shape unless it is a
Airy disk is smallest spot of light through a lens system (wikipedia) but is surrounded by annuli with about 1/8 the airy disk core diameter, to get higher resolution ic manufacturing and imaging aim just the annuli at an array of 5nm spaced semiconductors thenn the annuli of the airy disk are sense-able and of a size smaller than the optics diffraction " "limit", then the computer ignores the core circle and gathers data,"sees" things that are smaller than the optics can support, I did an equation from wikipedia and I think i read that with one method things 1/8 of a light wavelength can be seen/resolved, if the optics image/spot is then treated as an airy disk then the annuli around it are 8 times narrower/smaller. So that 8*8times smaller than say 400 nM light, about 6.25 nanometers airy disks annuli can overlap airy disc annuli to make ultratiny locuses of light for sensors or ic manufacturing
A light wave looks kind of like a normal distribution, chopping off the sides with math (sequental samples, most will be in the middle)leaves a bread loaf, the bread loaf is detected by the 5nm transistor, which means it detects something 1/3 the size so 8*8*3, the other math thing you can do is mathematically find the mean (at time series) with plural 5nm sensors, if you only utilize/record the particular 5nm sensor when it is also the mean of say 9 other sensors then you get 8*8*9, but what if the number of sensors to impress a big normal distribution on is 400/7 or about 77 like 77iles (language like quartiles) then it is 8*8*77, sampling 4 billion times a second 2020 desktop PC number) metaphorically think of a full stadium of big placard holders doin the wave, it is possible to combinecardholders doing the wave, rastering which 7nm transistor is "it" and the mean to be calculated top cardholder at "the wave" is found then you have higher spatial imaging resolution
To make computer chips out of it you make a layered stack, mid is transistor, under it is a quantum dot, they are in a box, the top layer is the giant blobby UV light from the mask but it is doing the airy disk thing, the annuli olympics rings reach another layer
The photoresist does xor
Simple version: swapping oout projector masks frequently draw a bunch of airy rings Olympic symbols on the photoresist,the smallest the airy rings get is 8*8,
Squeegee some dubious .5-nM particles like quantum dots around little 5Nm IC feature shapes like boxes
Does a bunch of identical spin photons have a resolution advantage when making semiconductors?
Is it possible to make UV or blue light with a nonsinusoidal waveform like tall skinny or half circle bumps? Weird atom field causes mirror effect (published well known physics) so an electron rich mirror might do something (perhaps a soliton mirror?) Might do something, a material magnetic could effect light passing through it, quantum dot emitted light might have different waveform if quantum dots are novel shape like lollipop or hollow (can a hollow QD emit light to its interior, what happens? How about a QD with protein core, atom corral foci unreal atoms which might or might not be called "virtual atoms" that emit light while zapping various actual atoms at the perimeter
Do diamagnetic or even ferromagnetic quantum dots in a magnetic field change their output? Co or Bi core quantum dots could be manufactured; electroluminescent things exist (limelight) if a novel formulation of a quantum dot is in an e- enriched environment,or also static electricity, can it make light
High resolution camera: frequency doubling crystal makes all light blue, QD pick up blue light and fluoresce, size of QD can be (1 atom) small and then a "not very efficient" 5nm transparent lightpipe (unlikely to work) or not efficient 5nm waveguide transports variously "some light, or some kind of light" from the quantum dot to transistor which then activates from light; many transistors make an image
11 ion implant with multifrequency photocoating like an IC photoresist; being able to implant multiple kinds of ions at different places on a map saves on making layers, which may make semiconductors even more affordable, N and P types on same layer, the 11 ion hi temp silicone coating resist polymer lets you bake the ions into place, to make even smaller ion implantation areas than conventional (2020) 5nM feature size airy outer annuli could make Olympic rings of overlapping ion enrichment types, that causes ion implanted traces that might, or might not be smaller than ic feature size (2020AD 5nm); the silicone 11 ion photoresist has 11 different colors of light sensitivity, each molecule of 11 different color dyes has a different doping/ion at the molecule which disassembles on light zapping (say methylene blue with a gallium at the GaMethylene blue, or just a He atom complexed to another dye)
Patterned semiconductor masks combined with airy disk annulus (only without the center disk) olympics symbol (OOOOOOO, only overlapping) make extra teeny (8 times smaller than beam center circle), features on IC, the tapestry of olympic rings (annulus-disk prints) is repeated, then, to make even tinier features at the ic being manufactured, only line intersections (crossovers)have enough energy to expose the photoresist then will become actual features, better than Olympic rings might be other shapes like:
Genetic algithm plays with airy disc shapes * ∆ O- to find one that has the actual photo lens/mirror/resist (ic fabrication) and at image sensors and image building for greatest function (at highest teeniness? Tessellation repeats on a lens or mirror?) that makes
The smallest airy disk annulus feature sizes, it might be long armed starfish or O--
A 5nm or less image sensor could be putting a frequency tripling or doubling crystal in front of a single layer of quantum dots that are on top of 5nM light flippable transistors (or smaller); note that the direct contact between QD and transistor gets around "features ...smaller than wavelength...nope" thing I read about alternatives to at wikipedia, I do not know physics but if the frequency doubling crystal were spin coated that is just 1 nanometer thick (2020 technology) so almost undistortive, permitting just the highest amplitude middle slice of:(top half of light wave looks like n, tall lump that looks like normal distribution), that highest height center slice, say from an outdoor sunny day image of a woman could through photooverlap compositing (kind of like Photosynth(tm)) of the many overlapping (roofing tiles on roofing tiles) rays illuminating her be like a macro - microscope; you could see a bacteria or virus on her skin, this could have satellite imaging and robotics and social companion robot applications as well; another interpretation is, that by looking that closely at the air (5nM tile on tile locus) you could predict weather better; also new kinds of light microscopes with higher resolving power could be constructed
Spaceship antenna solitons; broadcast from further beyond the edge of the solar system (heliopause)
Quantum dots emit waves (light) could some new kind of quantum dot or array of quantum dots, beads on a string, at ic-like fabrication, emit the physically larger radio waves, this might (might not) be more power efficient (phones with longer battery life, slightly), then again you could just have a IC feature size photoltaic # matrix with an Inductor/Resistor radio wave emitter, but as a super minute thing QD are better
Sports injury/eldercare/ambulance easy cheap portable body scanner; a quantum camera can send light into things without the light having a return path (no reflections or flashlight fingers so is good for body scanning, anyone (like a child that does dance or gymnastics) that thinks they might have a dance or gymnastics injury can rub this on the site and it images the tissue at depth, the image processing is at the cloud (internet) so can be physician quality, the friendly software tells you what is and what to do, and if it is important alerts your doctor, for elder care if there were a fall or aching joints the cloud software could interpret it,"no hip fracture", the parts on alibaba are near 42 cents for the quantum camera including display computing, optics, and case; ultrasound would also work
Quantum camera endoscope (QCE);Endoscopy is usually threading an illuminated tube through the body to make/get images to support medical treatment, using a quantum camera like that described at New Scientist magazine (contains the words "figurine" and "spin") to do endoscopy has the advantage of 3D imaging and being able to see through cm of tissue or more; as described at the New Scientist Quantum Camera article; the QCE endoscope, which is likely to be a fiber opticis threaded to the place of interest and emits
See all of the flashlight fingers, or any other multiCM glow like tumor and neighboring tissues, lungs through chest, heart through chest to diagnose heart disease early, additional data on a baby like tissue color some depth imaging of baby and placental health
360 view globe head - do endoscopes of any kind have double fisheye lens yet?
Use at blood vessels
Quantum camera that uses light and is not much affected by flashlight fingers effect to do x ray machine and tomography things at a lower radiation dose, maybe
A very safe drug that increases the size of the placenta could be an epigenetics of placenta size drug like an RNA drug or zinc protein drug, when the epigenetics of the pregnant person are changed, at her body only and not the fetus (because the epigenetic drug has a group on it that does not pass the pacental barrier) it seems likely to improve thriving at the fetus and correct things and risks if placenta size is below median and may have applications to well twins and triplets, you just find the genetics of placental size (growth, composition), look at those genes epigenetics that occur at the the 99th percentile of wellest babies (upgrade the APGAR test to 20 items, seven from a newborn's cheek swab or saliva, then it is possible to have 99th percentile of baby wellness (Apgar extensions might be healthy EEG, blood oxygen level 3-7 minutes post birth, blood sugar level, forehead temperature (IR scanner), quantum camera or ultrasound internal organ normalness, absence of birth defects, nonimvase scanner based nerve conduction velocity, normal EEG, omega 3 fatty acids at blood,anything they find that has a link to sudden infant death syndrome, correlation of body fat percentage with both BMI 21 at age twenty and thriving baby might be a thing that suggests a beneficial baby adiposity amount, estimation of liver function including CYP enzymes from Baby's cord blood,
I think comfy babies are happier babies, at a baby blanket something like a forehead ir thermometer only it connects to a weave of soft polymer fiber optics in the blanket so the temperature of 29 places on the blanket are known, transparent silicone is published and stitching made out of it would be soft to the touch, bendy, physiologically neutral and washable, the IoT chip talks to your phone for numbers and the completely nonprotuberant in-hem electronics module gives a visible diffuse nonprotuberant three color display, white, which blends nicely means OK, the blanket might be constructed to customize its wrap for greatest baby comfort, so that different conformations were: 1 wrap around once is cool but blankety, 2 wraps around, warm and snuggly easily made tighter or looser for a semiswaddle, 3 wraps around is war you up temperature, maybe even go outside warm and adjustable from zero swaddle to swaddle, to keep it in place there would be 1 ] soft fuzzy belt loop to tuck the blanket through; if you think of three linear paper towels wrapped 1,2, or three times around a tall glass that is a similar image alibaba has the ir temperature forehead sensor for 1-10¢, the IoT link is 1-10¢ (although I read IoT chips were going to be less than 1¢)nonreplaceable Lithium battery 1-2¢, so
Baby bedside cribside instant sudden infant death syndrome treatment, easy rip open premoistened cloth you rube over baby's face that is full of SIDS interrupting transdermal drugs and drugs that "revive" a "dead" baby, peptides, some thing (effect) like nitroglycerine or better a peptide heart restarter, something that induces breathing (opiates and possibly some GABA drugs depress respiration, so opiate antagonists and GABA antagonists could make any breathing reflex that remains become more prominent, kimd of zapping natural opiates aside, favoring breathing), the opiate antagonists would have much less discomfort if they stay outside of the blood brain barrier (BBB) anti-stroke protein (TPA gets mixed reviews, but a drug, and peptides are a likely such a drug that does TPA kinds of things especially affordibly, some peptides prevent ischemia (the first search page at ecosia search engine mentions about 7 antiischemia peptides), so a bunch of different peptides at one towlette dose as different peptides may effect different brain areas and body parts like the heart; peptides might be the thing to go with as they can be absorbed through the skin rapidly with nanoliposomes,DMSO and more up to date things, they are also often less than 1/10th of one cent for an adult dose
Gel you put on your little finger and swab around the baby's mouth that contains more peptides and heightens drug delivery further could be the next thing to do, an actual medical technologist could find out if towelette on entire face or mouth gel got higher levels to the bloodstream faster, sparkles on the moist towelette would let parents know they had swabbed the face completely and given the right dose
External vagus nerve stimulator that restarts hearts, this could restart the heart of a SIDS person or even an adult; with an intact vagues the brain runs the heart, it is possible that electrically stimulating the vagus might complement existing two paddle on chest defibrillators; an electrode adhesive patch would be placed, carelessly and rapidly by an untrained person on the back of the neck, the other electrode would go on the front of the neck and be much larger like 3"*5" and have 24-72 nub electrodes on it, the vagus runs through the neck, the vagal heart reviver has a computer in it that sends out test currents to find 1) which electrodes actually had good connection, 2)find the most optimal of the electrode nubs to place voltage and current through the vagus, there are a couple ways to do this, starting out with a bold, uninformed revival zap the front and back electrodes sense vagal EEG-like response, which may or may not exist, if the electrodes can read the vagus electricity (veg rather than eeg)then it is possible for the computer to tell which electrodes to switch to and play different vagal nerve stimulation, heart reviving, programs I think the vagal nerve stimulator can run through about 40 programs per secondemphasis is that the computer does all the knowing, an untrained person just calmly freaks out and puts two patches on the front and back of the neck and the computer does the rest; a better version of this is just a 2-3mm thick fabric adhesive tape bandage the rescuer just wraps completely around the persons neck, with a slight overlap, as simple as wrapping someone's neck with duct tape, this is easier to use and has only 1 lead(some wires in one tube), also the number of little electrode nubs goes up to 160 for all neck coverage with no positioning required, at alibaba the 4AA batteries that run it, 10 year variety are 25-60¢ and the electronics are about 14 cents so 74 cents; it should have a press to test; the user interface could have one button that says "Start Rescue", but every time you move the cheap LCD display says " batteries good" or "replace batteries"
Thermoelectric 5nM sandwiches that power UV emitters that energize a photocatalytic layer could be used at petroleum refining and at at catalytic converters
Sex toy;
(new note)
[NOTE 40] I read about something simpler and more mathematically basic than set theory but I do not know what
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Mon, Oct 12, 2020, 3:34 AM
to me
I read about something simpler and more mathematically basic than set theory but I do not know what it is called, noticing most 2020 computers besides analog computers and quantum computers run off set theory ( and, or, not, nand etc), it seems possible that CPUs and programs made from deeper math than set theory could have valuable characteristics and that higher level language computer programs compiled into deeper math than set theory hardware instructions could have new advantages, one way to test this is a 2020 set theory emulation of a DM computer (DMC) and software to find out if any of it, including programs compiled into DM form are better in some ways, one possible way is that different DM CPU layouts might be based on fewer transistors or even be made of semiconductors or other things that are actually not transistors at all, people could write simple software for the DM machine emulator then genetic algorithms (even cloud based 10,000 computer GA running a DMC (deep math computer) emulation could improve the simple programs (add, subtract, multiply, divide, other math functions, Conway's game of life, perhaps even a simple jr high level math equation solver as well as any kind of program humans think a DMC machine would be good at, disassembling the genetic algorithm optimized programs would teach human computer hardware engineers something and they could build DMCs in semiconductors (or other materials), if DMCs work better than set theory logic at the speed or also fewer-instructions per data type (like floats that have less volume of pixel span (bytes) to do the same thing and calculate faster, then that is an advantage, DMCs and their programs also might be more fault tolerant and have different race conditions or even no race conditions at all, different predictive branching and, at the hardware level different amounts of electrons utilized (energy consumption to do a thing) along with standalone DMCs there could be a DMC section of the CPU (this might be called a core) so humans and compilers could take advantage of the things DMCs are better than what set theory computers do, also, photonic DMCs might be able to do very different things than set theory computers, instantly
The thing I read about in wikipedia did not, as far as I remember, have any of these names but there are similarities: "depends on what you take mathematics to be, and what your standards of proof are.
Do you allow, or expect, infinitary, potentially non-constructive reasoning in mathematics? If yes to the latter, do you accept quantifier-free transfinite induction up to epsilon-zero? Do you take Peano Arithmetic as your foundation? Then your mathematics is consistent (Gentzen’s theorem).
If you take strictly finitary reasoning but include mathematical induction (and not transfinite induction), then Godel’s results leave it an open question, because there’s a statement true in the standard model that you can’t prove (Godel’s first theorem) and you can’t use reasoning within the system to prove consistency (Second theorem), so that means either you must find a reduction strategy (say to Heyting Arithemetic, which then shifts the question there, and Godel showed this could be done) or be comfortable with reasoning in a stronger theory, like a metatheory (which is typically seen as not favorable to the formalist or even constructivist positions).
Do you insist on Peano Arithmetic or Heyting Arithmetic as your foundation? There’s a result of Friedman and Meyer which says relevant arithmetic is consistent. But most logicians don’t like relevant logics, mostly because there’s so many of them, they are not characterized by finite models, and the proof theory for these systems reflects principles of carrying out mathematics that most mathematicians might not like (for instance: reductio proof is out, because one must have sharing of variables in a derivation). There’s also Presburger Arithmetic, which is decidable, complete, and consistent, and has induction, but only addition axioms. Is that a suitable foundation for mathematics? There’s also relative consistency proofs, and proofs of consistency using primitive recursion and finite types but, you know, these are still not quite what we want, which is an absolute claim about consistency for foundations (whatever that might be).
For my money, I think the answer to the consistency of foundations question can be resolved by changing our assumptions about what the underlying logic should be — and very little has been done by way of work in substructural approaches to foundations. Given Friedman and Meyer’s result, if absolute consistency is something independently valued, we should probably look elsewhere than Peano arithmetic or Is-mathematics-self-consistent
https://www.quora.com/Is-mathematics-self-consistent
Quantum dot millifiore ic lithography, imagine there could be a quantum dot that absorbs EUV at 230 nanometers, but is like a frequency doubling or tripling crystal and reemits light around 74 nanometers, much smaller than the EUV used to make computer chips, then you naturally draw lines and circles with the quantum dots to make chip features three times smaller than EUV's 7 nanometer (your chips are better at 2.33 nanometer feature size) size, so, since the quantum dots are so tiny how do you draw lines and circles with them, one way is to attach them to a polymer ladder or trirope (or structide). Then nudge or move the entire ladder or rope into the shape you prefer because perhaps the ladder or rope is so large it responds to laser tweezers; there is a lot you can do with a rope, O
7nM conventional procesd features as big current carrying bars, bottom or top layer of Y connects tricircle transistor
Why would you do this, to get about 9, 36, or 144 transistors in the space of today's (October 2020) one; the quantum dots get it up to 144:1 transistors and beyond
Another possibility to make nanofine bismuth powder is spectroscopic sputtering, basically you make bismuth vapor, add lots of filler gas so it can spread out then either zoom it around in a circle with a big magnet, next to an exit port so only bismuth blobs with the right number of atoms (say 2) get ported out to something like a cheap version of a magnetic bottle
Doing millifiore use a polymer, noting DNA which is much much thinner than a half nanometer can be pulled up out of solution with a rod, do a polymer core millifiore diameter reduction roll (sequentially)until the polymer core of the millifiore is 1/8 to 1/2 nanometers big, then the millifiore tiles, which could be as big as .5 cm^2 would contain a large plurality of circuit elements like these 1/8 to 1/2 nanometer circles at the P/N layer, these, tesselated like sphere packing are the basis of transistor tricircles
Another possibility is to blend the polymer core, pre-millifiore with quantum dots then have another pipe-like layer of bismuth powder, or, if it can possibly work a malleable bismuth foil pipe, then millifiore it to 1/8 to 1/2 nanometer, kind of like a fat tire, the width of the bismuth layer determines non-contact width/space between tricircles
Another millifiore possibility is a semiconductor process (rinses away simultaneously with the photoresist as a soluble polymer) with 20% active ingredient-in-polymer-matrix ingredient (quantum dots, bismuth powder)
Actually using millifiore, Y or I shapes, containing quantum dots, adjacent to the central N/P circle, gives the ability to draw out an entire 1/4 to 1/2 nM polymer+active ingredient circuit, like literally, with millifiore you could draw any 2D geometry (I am reminded of a boxy circuit diagram with circular parts) and because each line and feature of the geometric template has a quantum dot coating around it or blended into it it can 1/4 to 1/2 nanometer so that when the quantum dots are activated to produce photomask effecting light this patterns the photomask (then semiconductors are CVD deposited, remask, put another layer of millifiore circuit diagram down,repeat)
These millifiore tiles are circular and arrange in space like hexagonal sphere packing, it is possible to make square tiles as well, just "slab" the preroll core with 4 planes (a square) then put another polymer dough fill and tube around that, based on internet millifiore images it can stay square
One thing about the quantum dot enriched polymer that exposes the photo resist is that I think it is likely to work better if the QD+polymer blend shapes have a very thin opaque layer all around them sort of like if you put a length of rebar or an old 20th century fluorescent tube light into the middle of an opaque long paper towel tube or gift wrap tube; bright light would only exit from the base and top; this makes it so only the potoresist directly under the tube is illuminated without leaking around making blobby forms and lowering resolution; so at a big circle or a +| or Y or _|– there would be a very thin opaque layer at the millifiore around those traces, possibly except at tile edges where you wanted light exposure to bleed through to the adjacent tile to have light exposure that caused continuity of conductors; at a wide area millifiore tile there could be hundreds or EV a thousand or more transistor N/P single layers; as described previously, bismuth rich areas would be used to jiggle the millifiore tiles into place with each other using diamagnetism;
I do not know enough to know about duration of exposure of quantum dots or if they have to be stimulated 100,000s of times per second (UV strobe) to give a 1s exposure; the quantum dots are pretty affordable, at alibaba a quantum dot polymer film screen is about $1-5 as just the quantum dot polymer layer, that covers an area at least as large, and possibly several times as large as a 17" monitor, so the amount of quantum dots per 300mm wafer could be less than 5-25¢
I also do not know the activation frequency (UV, possibly even blue light) and optimal emissions frequency of the quantum dots; the photoresist might use alternative chemistry where it ignores UV/blue but considers itself exposed with green or IR (!)
More words: Quantum dot millifiore ic lithography, imagine there could be a quantum dot that absorbs EUV at 230 nanometers, but is like a frequency doubling or tripling crystal and reemits light around 74 nanometers, much smaller than the EUV used to make computer chips, then you naturally draw lines and circles with the quantum dots to make chip features three times smaller than EUV's 7 nanometer (your chips are better at 2.33 nanometer feature size) size, so, since the quantum dots are so tiny how do you draw lines and circles with them, one way is to attach them to a polymer ladder or trirope (or structide). Then nudge or move the entire ladder or rope into the shape you prefer because perhaps the ladder or rope is so large it responds to laser tweezers; there is a lot you can do with a rope, O
There are lots of ways to coat biological things with metal, I am reminded of old (?) Electron microscopy where they would coat things with "noble metals" before imaging, coating things like engineering protein shapes like big beta sheet simple machines with bismuth makes it possible to magnetically wiggle them, powering the machine by wiggling a distal bismuth coated lever (or also Bi as part of the polymer molecule)
One possible way to coat things with bismuth is sputtering, another is a cold plasma gun, say you have a slightly complex shape, like a Y made of anything, even protein or a structide, with a standing up column at each of the Y distal tips, you would like to flip a few billion or trillion of them to Y table right side up, cold plasma bismuth application (coating) causes the 1% of them that are already table side up to get a bismuth film on their top surface; then anytime you like you can wiggle a magnet to make them hop to Y table side up because the upper table surface is avoiding the magnet
I may have read that microencapsulated sperm are fertile and live a week with zero mortality, that made me think you could get them to live a month at 50% mortality and 3 months at 94% mortality (but 6% are still alive and fertile)things that improve this could be things that keep them from running out of food (fructose but raw ATP might work too) attaching sperm food (ATP, fructose) to a cell penetrating peptide could cause the food to reach them internally; sperm might tolerate osmotic feeding where their internal stuff content is so high they puff up a little with ATP, any other chemical in the TCA cycle, or fructose water, then when gently passaged back to semen osmotic environment and semen, they then live an extra month or longer from getting a food infusion, another possibility is slowing their metabolism so they take more time to run out of food, slowing down mitochondrial respiration might do this; mitochondria have receptors and respond to NMN, peptides or proteins that variously open up or block those receptors to 10% of usual metabolism could turn 1 month of zero mortality into ten months of living microencapsulated
Mitochondria have porins at their outer membrane, so any moiety that gets food to transport through a mitochondrial porin could cause greater lifespan, wikipedia says antibiotics are frequently transported by porins, along with simply attaching fructose, ATP (or any other TCA cycle chemical that is sperm food)to antibiotics or other chemicals that transport through the sperm mitochondrial porin is the possibility of taking the most transported antibiotic (or other chemical) and modifying it so it is absent antibiotic character which may be toxic; with an enzymatically degradeable linker peptide fructose and ATP could be transported by the newly nontoxic antibiotic to feed the genetically enhanced sperm, also, methylene blue is a dye suited to living tissues such that they stay alive, methylene blue linked to fructose or also ATP (and TCA chemicals) with an enzymatically degradeable amino acid linker, possibly GGG could feed genetically enhanced sperm, also a really gentle dose of detergent could make them permeable to a puff up with food, " cells by reversible cell permeabilization using the detergent Triton X-100." So looking up something even milder than triton x-100 and using a very low dose to plump up the sperm with food over 24 hours instead of 15 minutes as triton x-100 might be used for vivo dyes could cause genetically enhanced sperm to live longer;
Wikipedia says the mitochondrial porin at sperm is anion selective; "the voltage-dependent ion channel plays a key role in regulating metabolic and energetic flux across the outer mitochondrial membrane. It is involved in the transport of ATP, ADP, pyruvate, malate, and other metabolites," Is there a way to give ATP or fructose an anionic (negative) charge and still have them be edible, I do not know if anions are neutralized by H+, but between these fructose missing one hydrogen might still be edible the way 2 deoxy glucose is edible, similarly with all the (3) PO3s at ATP making one of them have a missing hydrogen atom could leave most of the yummy ATP food Mitochondria use Ca++ and porins transport it, a lesser or greater amount could make sperm live longer, if lesser then at genetically enhanced human tissue culture sperm there could simply less calcium in the tissue culture medium, if more calcium benefits sperm then more calcium could be added to the tissue culture medium
Pqq
PQQ might or might not be coenzyme Q10 attached to some other thing that gets it past the exterior cytomembrane and the mitochondrial outer membrane, attach the Pqq transport moiety to fructose, ATP, and any other TCA food
possible medium approach to longer life of genetically enhanced sperm, add EDTA to mop up ions of all kinds at semen to see if sperm live longer
To transport fructose/ATP/TCA foods to the mitochondria via the anion favoring mitochondrial porin: PH as anionic environment, feeding fructose or ATP at modified pH (anything above pH7 with 99% genetically enhanced sperm survival) may work better
Mitochondrial cool down tail; there are a variety of mitochondrial proteins and it is likely some prompt, command, sustain energy production, noting 100% survival of encapsulated sperm after one month the technology to be developed is something that causes convenience packaged long shelf life genetically enhancedsperm to use only 10% as much energy, increasing 100% survival at one month to high survival at 10 months (the same amount of metabolic energy); one approach to doing this is to find mitochondrial or sperm proteins that direct other proteins and cell processes to do metabolism and protein production and turn their activity to a decreased level so the genetically enhanced sperm can live longer, I read about how making a custom binding amino acid sequence (peptide)(or possibly protein or RNA) based on a complementary sequence (and structure) caused what i call the tail peptide/protein to glom onto a preferred protein to change its behavior, making tail peptides to sperm and sperm mitochondrial proteins that direct metabolism and apoptosis to slow them down (and block apoptosis) is likely to be a way to get sperm to use just 10% of the usual energy, extending the lifespan of encapsulated genetically enhanced sperm from one or a few months to ten months or longer
At 60 million sperm per ejaculation there are about 300 million sperm per 10 ml; find the longest lived 9.9999 percentile and find out why they live (likely well over a month, much longer is possible) find out why compared to The 99th percentile that cease living, is it apoptosis, mitochondrial apoptosis, running out of food or essential amino acids or something different?
If it is apoptosis putting BCL-xL in media and commercial and consumer packaged storage could cause genetically enhanced sperm survival, wikipedia says, "or running out of food or some more Bcl-xL is present, then pores are non-permeable to pro-apoptotic molecules and the cell survives"; there are ribosomes at the mitochondria, what mtDNA are they making, what protiens, would more of less of it be of benefit? perhaps sperm run out of essential amino acids, this harms their mitochondria or them and they cease living, mitochondrial DNA, which there is not very much of, has epigenetics, what epigenetics of mtDNA causes greatest longevity 99.9999 percentile? if their epigenetics is different than median and 99th percentile survival then try the: Even Moreso approach to amplify the beneficial epigenetics of the 9.9999 percentile while duplicating the epigenetics of the longest lived sperm at the tissue culture of genetically enhanced sperm
(new note)
august 16 technologies
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Tue, Aug 17, 11:22 AM
to beanagel300@yahoo.com
Industrial and construction lasers could have cameras on them that would only start the laser if the machine saw properly worn laser goggles or glasses on the face
Desalinating water with ultrasound, ultrasonics, the coanda effect and ocean geotextiles; with fresh water at one 1 cent per cubic meter as the output a 11 high identical element stack of water vapor maker, concentrator, and condenser made from corn cob cellulose and some polymers is like a floating sandwich on the ocean, likely near shore; the inner bottom layer of the sandwich is a tesselation of wicking upright dendrites or tree shapes where the wick draw side contacts ocean water, the upper part of the sandwich is a saltwater immune top corn cob cellulose based covering; corn cob powder is $100 per 1000 kilograms on alibaba or 10 cents per kilogram; treatment of cellulose with sulfuric acid or possibly electrode water acid causes the cellulose to turn into a gel, likely compressible, shapeable, particle incorporating gel, a film of the corncob gel plus unreacted powdered corncob is both the upper layer and base lwicking layer of a geotextile air sandwich of a thinckness optimized for coanda airflow, imaginably the geotextile ocean textile is 3 cm thick
Noting a 10 meter long, possibly, standard shipping container the sandwich is on 10 meter wide rolls and shipped uninflated, and the full square kilometer of sandwich is made of swathes 11 meters physically apart, which supports ocean well being by avoiding the anoxia that would come from an uninterrupted square kilometer of ocean geotixtile; at the interior on the sandwich two complementary things combine to make it so air flowing through the middle of the sandwich has 80 times greater humidity, up to 99.9% humidity just a minute amount less than auto condensation of water from air, 1) ultrasonic transducers motionize air in the sandwich sufficient to bring 20 times the volume of air in through apertures or slots on the upper outer surface of the sandwich, and that air is used to provide coanda effect 20 times moving air, 2) the base tessellation of seawater wicking elements provides for 4-11 times greater air humidity for a 99.9 % humid airmass up to 88 times greater throughput of humid air that eventually reaches a nonpowered seawater cooled condenser (liquid water maker); the ultrasonic transducers at the sandwich core are pendant on flaps from above and are shaped to push air axially forward, with the right incidence angle and likely laminar flow to get the 20 times coanda effect air volume motion effect; notably, plastic acoustic lenses exist just like light lenses and along with good design of the ultrasonic elements the acoustic lenses can collimate the acoustic beam for more effective air pushing at much farther distances to push and shape the coanda effect air entrainment, possibly two collimated ultrasound beams would pressurize and push 99.9% moist air which has gone from 10% humidity to 99.9% humidity from traveling past the wicks to the a tube is a water making condenser part; if the humidifier is a sandwich, then a straw angled downward for gravity flow of liquid in-condenser is another part, with interior and exterior of the straw made to have very high surface area internal to the straw and external at the straw with things like nub on a stick cold bringers and heat echangers, including laser velveting of the surface; the straw is a metal powder infused polymer rather than gelatinized pressed corncob powder; although it risks corrosion a 80% magnesium or iron powder fill at the 35 cents per kilogram low density polyethylene could last 11 yearst, and with fe near 96$/ton possibly cheaper than less coolness conductive gelatinized corncob powder; from a simple strawlike tube to an undulating rounded 3d shape the condenser is filled with freshwater from various simultaneous things like the coolness of the ocean, the presence of compression and decompression (slinky) waves from the ultrasound transducer, noting a section of increased pressure causes water to condense and drip or flow to the gravity base of the condenser, and anything that can be done with the entrained coanda flow like passing it through a cooling venturi or what looks like a 3d nuclear plant cooler hyperbolic paraboloid, as well as seeding a genetic algorithm with different aerodynamic shapes, flaps, water-hammer like pressure and thus condensation makers; the freshwater accumulated by each 10 meter wide and optimized length floating component assembly is gathered together from the square kilometer and 11 lvertical ayers and pumped onto land or picked up by watermoving vessels; previously not mentioned is that each 10 meter wide swath of sandwich has 10-40 separate ultrasound flow channels duplicated at it, a meter wide air channel only 3cm thick (sandwich thick) sounds less effective than a 11 cm wide channel; if the floaty sandwich weighs 3grams per square meter (compare various film masses), each square kilometer of 1 million square meters is about 3 million grams or 333 kg, just $34 for gelatinized corncob construction, similarly 11 grams of low density polyethylene could be used at approximately 9 times more, or a little over $300 for a larger amount of a well comprehended material; producing revenue at 1 cent per Cubic meter of water, if a cm^2 will evaporate 1/2 gram of water at 60 F then that is multiplied by 20 from the coanda effect breeze 9n the wicks then each cm^2 gathers 10g of water each 24 hour, or at a kilometer square water production facility 100k sq meters of freshwater, or $1000 of freshwater at a cent a cubic meter per 24 hours, 365,000$ per year, a stack of 11 square kilometers earns 4 million $ annually; if the repairable life of the sandwich and straw is 11 years then the entire thing earns $44 million on $3300 of polymer sandwich plus, at one ultrasound transducer per 20 cm wide times 49 cm sandwich channel, 3 cents for a mass produced but custom acoustic collimating lens, and 1.2-20 cents per ultrasonic transducer (alibaba.com), 7 cents for a localized coanda making waveform generator/power supply, and 3 cents of wire and ultrasonically welded flap hosting the piezoelectric with a front pouch for the acoustic lens, the $ is .4+20+7+3 or 11 to 31 cents per square meter, at 11 cents per square meter a square kilometer is near $111k per square kilometer layer, and 11 layers is 1.2 million $ but earns 44 million $ each 11 years at 1 cent per cubic liter; 1 cent per cubic liter along with benefitting urban persons is cheap enough to irrigate some kinds of crops in sunny locations like California, better versions of this could have the layers anchored far underwater, strongly reducing storm harm risk and placing the pipe that connects all the freshwater containing straws to an ocean or bay bottom freshwater delivery to land pipe and macropump or advanced macro piezopump, possibly earning millions more is to have an upright pipe gathering Santa Barbara temperature ocean surface air and bringing it to the 40-49 degree greater depth sandwich and condensing straw, a 20-29 degree difference, there may also be some millions of $ of fiscal value from pumping the air that will go through the sandwich to the straw through a within 6 inches of warm ocean surface bubbleator/warm air humidifier before it is brought to the sandwich, or even skipping that and just drawing humid air from 16 cm above the ocean surface; electricity to power the ultrasonics comes from the shore; at alibaba piezoelectric transducers come in 1.2 cent forms of about equal mass to the other multiwatt purpose engineered forms, suggesting that the very defined ultrasound transducer linear beam and collimating 3 cent polymer acoustic lens could be manufactured together as 1 polymer pocket sized unit, additionally the corn cob molded gel polymer or low density polyethylene could have smooth flat construction benefitting coanda effect, it is even possible that at an 8 cm diameter channel there could be a short stack of coanda passages for wall effect like(||||||) to entrain air on a rigid polymer gappy linear polywall; polywall or sandwich wall could be made with extra rigid ultrasonic reflectors or cones or other geometries to amplify/concentrate ultrasonic force right where the coanda 20 times air entrainment happens; piezoelectric transducers that are ultrasound range from kHz to MHz, it is highly beneficial to utilize a frequency outside the hearing range of all mammals including marine mammals like dolphins and whales, so MHz has both narrower beam and greater unhearability; on establishing private utilities can actually make money from sandwich and straw technologies they have the opportunity to invest in more durable forms lasting over a century like PTFE membrane, digitally aware ultrasound transducers with a depthy form casting grating in front of them, harmless antimicrobial biocide peptides in the polymer to reduce fouling, condenser straws made from tin coated magnesium filled polymer,
A way of desalinating water so that when it precedes reverse or forward osmosis manufacture of fresh water from seawater only 3% as much osmosis membrane is used, making the two together cheaper than reverse osmosis or forward osmosis alone, first a technology that is similar to a better version; at an STP tube have an ultrasound transducer surround a hollow narrow diameter tube such that when oceanwater is sprayed out of the tube moving compression waves or other ultrasonic and coanda shapes cause the narrow stream of atomized droplets, nanoliters or microliters per droplet to travel forward until they are 94% evaporated; at 94% the droplets strike a wall I will call the brine drainage wall; continuous or even pulsed use raises the humidity of the air in the tube to 99.9% humidity, minutely short of condensation, air is pumped through the tube and the 99.9% humidity air is condensed from acoustic ultrasound pressure waves that cause enough areas of free space air pressurized enough to condense on an unchilled sponge ;Now for the actual different technology; consider a foaming agent mixed with seawater (protein based foaming agent 51¢/kg at alibaba) and the foam it makes, ultrasonically and coanda effect fan it until it mostly evaporates and becomes briny foam with smaller bubble size, then although the actual technology does not use a centrifuge imagine centrifuging the entire chambers bubbles and then setting aside the; a different foam seawater desalination technology has several parts 1) polymer tubes with dendritic wicks sticking out of a tube that carries oceanwater 2) an ultrasonically pumped airflow shape around the wicking tube, at 20 times multiple greater airflow a multiple flat plane geometry is used like [∆] or [ [ ] ], 8 planes at a diamond in a square is 160 times as much airflow in the tube, 3) beneath the 160 times breezy coanda elements is a layer of foamy bubbles that are made with a cheap foaming agent, when the coanda guide ceases all 160 airflow volumes of moist wicked air are directed at the foam layer; the foam layer then surface absobs the water vapor rich coanda breeze air; when the bubbles moisture, determined by spectroscopy or just predicted with timing, has been re
placed with 97% freshwater a phonic or ultrasonic all bubble popping event occurs and the 97% freshwater is pumped to an osmosis filter to purify the remaining nacl mgcl2 cacl2 out; ultrasonics drive the coanda breeze
With ease of laser cutting it could be that lightweight metal or ceramic replacements for wood are possible, cheaper than 2021AD wood lumber, and much longer lasting a few forms are made on site ceramic pieces from laser sintering of cheap ceramic powder or ceramic lumber factories at areas with lots of cheap electricity or natural gas; genetic algorithms would find optimal internal structure like geodesics, vaulting internals and screwdrivable, nailable drillable forms; that form could be a lumber core that is then cooled and slid into a ceramic or metal sheath/outerlayer/girdle for greatest durability; glass beverage containers are cheaper than ALU!inum so an ultrasonically foamed liquid glass or ceramic could be especially affordable, perhaps foamed around a cheap green ceramic molded geodesic Where the ceramic lumber is then heat treated to ceramicize (cost similar to concrete thermal calcination), other ways to make cheaper than wood ceramic or metal lumber is to make two mateable sides, like stacked bookends or stacked ice cube trays making the linear lumber replacement fit together like two ]] brackets and using ultrasonic or laser spot welding that cofocalizes through the exterior to weld multiplenums inside a lineal lumber boxbeam together giving more strength than just a hollow boxbeam, at a welded brackets form genetic algorithms are used to find optimal strength with least mass and greatest ease of munufacture; it could be that rather than vertical wall plenums, angled plenums in a polyribbed shape surface or asterisk are better, the genetic algorithm improves the box beam filling; at ceramics foam is possible and could greatly reduce weight, large cell double thick walled larger diameter foam bubbles may be possible to produce from ultrasonic and simultaneous treatment that produces cavitation at a spreader nozzle that either fills a mold or draws a lumber shaped bolus on a continuous process conveyor belt; low (sodium silicate) or high temperature glasses and ceramics can be used for cheapest manufacture; other kinds of wood replacing lumber are producible this way like ceramic or metal plywood, metal version might be butcher block ice cube tray, ultrasonically welded or laser welded plenum construction or anything the genetic algorithm likes better, notably at laser welding, and possibly at ultrasonic welding entire square meters of material can be welded in parallel with a light distribution grating like a hologram that simply spot welds all ]] plenum walls with minimal alignment, industrial lasers are published as join welding 60 meters/minute, which could be multiplied several times over as the massively multiparallel plenum spot welds are much faster
The metal to make a linear lumber or plywood replacement seems to be ferrous alloy, zinc or new conductive polymer anodic protections would be used, at a construction site a drone could beam radio at a wall or building and compare it to a the image or the cad plans to find any ungrounded metal at the buildings metal lumber to connect to anodic protection
Comparing an explosive nailgun and an explosive rifled barrel screwgun that shoots with a twist, rotational rates that are multiples higher than the directional force could shoot screw-capable screws, useful at metal lumber
My perception at plywood and oriented strand board is that the urea glue is cheaper than the wood, only if that is so then genetic algorithms could come up with a new form for all urea glue paneling, ultrasonic and laser foaming might be very cheap, and embossing surface ribs is also cheap, although plywood is a laminate minimizing the amount of laminations makes all glue plywood cheaper, noting the polymer expansion pellet like styrofoam, peraps urea wood glue expansion pellets could be made to make a new kind of strong light styroboard where different space filling geometries or pellets are combined, like long foam straw lzser oriented nonwoven fabric layers, at alibaba aluminized mylar is 1\2 cent per sqfoot, suggesting an aluminum, or bismuth or tin moisture blocking metallization can be less than that
Could soliton like high energy dissipative solitons be better at drilling through earth for wells and petrochemicals, farm soiltreatents and sewage leachate fields and colorization layer of reverse osmosis membranes
Using ultrasound to make roofs last longer, at a roof like a polymer coat flat roof there are areas of water concentration some might be puddle like, the effect of putting an ultrasound transducer and vibrating form in these puddles is the cool ultramicrospray of water out of the puddle at a velocity comparable to an ultrasound humifier, this takes much less energy than it would to evaporate the puddle, so as a roof technology a 1-2 watt piezoelectric transducer, a polymer or aluminum vibrating plane an either a 1 or 2 watt photovoltaic or a rooftop electrical plug powers the puddle remover; for new construction of bulbiform, angled and flat roofs the ultrasonic elements can be made a part of the roofs layers or top, each 1000 sq meters of roof might have 1kw of spread out transducers, run for an hour or less each day, and contain $200 of transducers at 20 cents per transducer; it may also be possible to use 1\10 the energy and number of transducers from putting them only at low wet spots at the edges of eaves and height reduced areas of flat roofs
Wikipedia describes ultrasonic trills as using just 10w to drill a hole in granite compared with 760w with a rotary electric drill, that suggests that boat and ship propellors like those used for containerized shipping could be more energy efficient with ultrasonically agitated or even driven (rotated) propellors perhaps causing 76 times less drag, similarly kW of ultrasonic energy at the leading point of a ship could ”drill" throughwater 76 times more efficiently; applied to pumps like air conditionimg amd heat pump pumps as well as agricultural pumps à vertical translation rotating 8mpeller that rides a focal cone of ultrasound (see wikipedia ultrasonic drill) or is ultrasonically linked to a vibrating mass that twirls could use much less energy to recompress refrigerant or, at agriculture, move water, and at industrial pumps move industrial fluids, i do not know of any water propellors or pumps based on the wikipedia ultrasonic drill developed by NASA; I perceive the thicker the solid or liquid the nearer the technology is to the 76 times efficiency gain, that suggests an ultrasonic saw, simply a line of ultrasonic drills could replace diamond tip circular saws at construction and roadway concrete cutting, metal cutting and, at industrial cutting the equivalent of blades that omit getting dull thus last longer and have less maintenance, what is called stir-welding could also benefit from ultrasonic drill technology, producing, like granite, 76 times greater stirring rotating perhaps percussimg amount of stir welding for the energy used; the ultrasonic drill technology's effectiveness at drilling an inch in granite with 76 times less energy has direct functionality at transforming above ground or below ground ore chunks around 2-3 cm into powders and microfine powders for smelting and leaching ore, at mining, similarly if an ultrasonic grinder is based on ultrasonic drill technology cement and concrete clinkers can be powderized for use much more energy efficiently; wikipedia notes after 1 inch drill depth mineral fragments and powders effect drilling effectiness, blowing the fragmented material out with the coanda effect or a simple water jet slurry are likely to increase drilling depth; I read about an amorphous compressed fullerene glass more than 1000 times harder than diamond, that could make an especially effective ultrasonic drill, saw, or grinder active element coating; the efficiency of the 76 times more effective ultrasonic drill could be increased from customizing the kHz/MHz frequency to the ores being powderized or the thing drilled; also wikipedia mentions one part of the drill is a vibrating mass with the drill bit on one side, if an ultrasound acoustic reflector is used then both sides of the vibrating masses wiggle can be used, visually a little like a ballpoint pen receiving energy from inktube and also angled-in ferrule around the ball of the ball point pen image, also depending on the material being drilled or the ore being powderized various ratios of percussion:rotation or even eccentric motion produce different effects at the same energy, it seems to be possible to double the energy efficiency of the ultrasonic drill, saw and grinder; its easy to think of an ultrasound crystal as an electrode sandwich, but what if the piezoelectric element were molded or laser cut to look like an undulating rollercoaster or a center connected group of chevrons>>>>, then the wave emitted would have additional 2D or 3D character and with different electrical connections at each swell of the roller coaster or separate leaf of a polychevron the ultrasonic crystal could separately and compositely addressed; is the vibrating mass mentioned at wikipedia high density and highly affordable like bismuth
The way a rotary electric drill is often a motor, and a motor swaps for a generator, but is 76 times less efficient at drilling than an ultrasonic drill suggests the possibility of an electric generator or motor that produces energy or travels further an order of magnitude better than an electrical winding machine if the generator is built to precisely and frequently strike/deshape piezoelectric elements that have conductors on them to produce piezoelectricity, a rotating turbine like a gas or nuclear turbine could pressurize an air or even water whistle tuned to the optimal receiving frequency of the physically connected piezoelectric crystal, an alternative to a whistle is a super purposefully very loud slippage of metal on metal, like the idea of a squeaky bearing amplified, another source of piezoelectric sound is a rotating bike wheel with thousands of radii wires as strikers to a plurality of tuning Y objects encruested with piezoelectric crystals, or each being a single wired for electrical production crystal each
Motion coupled piezoelectric elements could function as very high efficiency transformers benefitting the many transformers at an electrical grid
Ultrasonic anti-ultrasonic drilling at bearings and piston rings, can an anti-drilling effect make a bearing or ball bearing that floats in the middle of its tolerance range, causing much greater life, does ultrasonic jiggling reduce raceway friction if the jiggle moves the bearing or ball bearing towards central location of least contact, reduce friction and warmth generation
Noting that lasers can etch surface finishes it could be that an agricultural drone laser that purposefully thins the outer upper cuticle of agricultural plants leaves to make them thinner and have a grating would cause them to absorb more irrigation water and spray on nutrients, fruit, nut, soybean, grain crops could all be tried with this, it also increases gas exchange, really unlikely possibility is that with laser cuticle thinning available CO2 goes way up; just as gratings increase the optical transparency of metals the laser ruled gratings on plants could increase transparency and be like an antireflective coating from reshaping the cellulose on the leaf, broad massively multiparallel etching of 2x2 meters of surface at a time could be done with a hologram grating and strong laser aimed at a swath of plants, using heatless pulsed spallation lasers is also possible
Lasers could be used to smooth out bumps on roads with laser planing of asphalt and cement, making drivers happier and possibly slightly increasing energy mileage; the road laser planer could have a new road stripe painter on the same platform, airjets or rotary sweepers could sequester and remove the planed away micropowder
Do geodesic molecules like fullerenes exist but made of silicon?
(new note)