so the physical fineness of feature size etching in muon beam beam etching is 1000 times smaller than in making things with electron beam etching, that is single atom etching, and with cycles of etching, deposition, and etching, shapes, like nanomachine,
nanotechnology 3D shapes and objects can be built, one way to make the muon etched single atom etched 3D shapes separate from one another is to do the coating and etching process at the temperature of liquid nitrogen, or the STP temperature and use
polycarbon halothane, or larger fluorine waxes that sublimate, going directly from fluorowax to gas, camphor also sublimates, placing these things that turn directly from liquid or wax to gas between, and amidst muon etched single atom 3D nanotechnology
machine forms separates the forms from one another for instant use ability, as well as makes mechanical engineering useful spaces and parts like air/atom space gap at spring shapes, empty purposed space around levers, and empty space at atom and atom
goup grasping clamps ], empty space at box beams, and empty space at nanossembler planes, and molds and jigs, i thinks I have previously written that a high magnetic field outside of a nanotechnology nanomachine can cause diamagnetic compression of
nanomachine and nanomachine groups from the away-motioning diamagnetic effect of most elements, so at a lever with some highly diamagnetic bismuth atoms at its distal or driving part, the lever moves the larger levered object from the press repulsion of
the diamagnetism producing field, the faster the magnetic pulses say a million or a billion magnetic pulses per second from an electromagnet each pulse could simultaneously press and power a billion or trillion nanomachine levers, producing a quadrillion
or 1000 trillion nanomachine simultaneous motions each second that could do a useful action, or be a high quality energy pump into other manomachines that the levers connect with, diamagnetic lever or better nanomachine powering, like a spring, wave
spring, o even springs that use different compression and other PRS wave styles like compression waves at a slinky, or side to side wave motion energy gatherers like wave carrying flexible string, also although the diamagnetic motioning of "an be on or
off, it can also be ramping up, undulating, repeated one side of a an undulating wave only, as well as other shapes of magnetic intensity that ramp up to accelerate lever motion, as well as mild-high-mild magnetic field pulses that start gently, then
provide the nanolever with lots of energy, then have gentler diamagnetic driving to cause smoother nanomachine and nanometer lever connection motion transfer, causing less vibration and twang from excessive force and motion at the connection between nano
lever and nanomachine, this reduced force transfer vibration also makes the manomachines last longer, it is possible that out of a billion or trillion nanolever assembly, that 5000 different shapes, and lengths and interval of response responsive lever
forms that are matched to magnetic pulse duration, intensity of magnetism graph curve like mild-high-high-mildoever, as well as drivability magnetic threshold from having ten times as many diamagnetic bismuth atoms on the lever, all these variants in
magnetic field attributes, and all these variants in power able lever forms, at 5000 styles of diamagnetic driving, and 300 lever forms makes 1.5 million different lever powered nanomachine separate action types, that can be directed to run in particular
nanomachine sequence from the modulating the magnetic power supply, another area of utility of a diamagnetic field around a large assemblage of nanomachine it that a diamagnetic element repelling magnetic field on a bunch like billion or greater
nanomachine that comes to effect the nanomachine from opposite sides, 6 sides, or spherical sides simultsnously causing motion clamping and vibration reduction improving the mechanical engineering predictability of the nanomachine together,
Diamagnetic sequenced, interval, intensity sequential waveform generating electroagneucs pulsing millions, billions, or trillions of times per second can effect chemistry and notably catalysis and surface reactance, at catalysts like Co catalysts that
are already magnetic, a thin very cheap thin film of cobalt 1/1000th the mass of a usual cobalt catalyst is produced on a witricity antenna powered electromagnet conduction pathway high surface area minibead or microbeads, such as a milifiore conductor
path cheaply produced microbeads or minibeads conduction pathway that is the electromagnet, different electromagnet pulse frequencies have different amounts of magnetic catalyst activity, as well as high intensity sudden field changes causing actual
physical motions and vibration f the atoms, like cobalt atoms at the catalyst surface, which causes greater amounts of catalysis, finding the most catalysis increasing electric and magnetic driving waveforms can be from screening the amount of catalysis
that occurs each 1/100th or 1/10th of a second measured with a laser that causes 180K variations per hour, or about more than 18-24 million different catalyst electromagnet waveforms test each 7 days, having 11 different silmultaneous waveform producers
separate actual measurement apparatuses causes about 200-240 million different electromagnet waveforms each 7 days, this could find high catalysis effects not previously predicted at catalysis science like electron spin direction identicality or
nonidenticality, as well as interval of electron spin change causing greater catalysis, also physics resonance to my perception causes heightened effects, it is possible a resonant electromagnetic driving waveform, or a plurality of them is Characterized,
such as spin change resonance, physical resonant motions of the atoms at the catalyst surface that cause atom surface refresh, vibration and motion of the atoms to cause longer, briefer or highly catalyst effect multiplying interval of chemicals, like
molecules duration of being next to the catalyst surface such that once transformed to product the product molecule is catalyst surface charge repelled off of the catalyst contact surface making the catalyst available to fresh molecules to be catalyzed,
causing, if the dwell time of the catalyst product is 1/111 of the non waveform driven dwell time an order of magnitude or greater amount of product catalyzed each second, also i read that physical force, similar to motion at atoms is sometimes thought
of as molecule or atom rotation, vibration, or direction of movement translation varieties, it is possible some driving waveforms could produce catalytic surface element or molecule rotation high rotation amounts, or even rotation increase driving
alternating with near stationariness of rotation causes catalytic effect increase, siilarlarly while the atoms of the catalyst experience waveforms like high pulse intensity waveforms, or waveforms that start high, then ramp up even higher for a periodic
waveform that causes high translation motion at the atoms or composition of the catalyst without actually producing so much translation as to cause the catalyst atoms to part with the catalyst surface do cause pressing of the catalyst physically nearer
and forcefully to the precatalyzed feedstock chemicals, causing the molecule and catalyst proximity and electron sharing to be at its most catalytic distance perhaps 2-128 times more often, causing doubled to two orders of magnitude greater amounts of
the % of a catalyst surface that is actually catalyzing, that could cause many times more mass of product produced each second gnitudemoshe multilocation simultaneous catalysis of an alkane laying or contacting a catalyst surface with contact bumps or
spaced regular out jutting surface vertical elements a few nanometer or hundreds of Pico meter long, at a magnetic catalysis electromagnet driving waveform, that changes atomic spin, could cause the plural Pico bumps or nano bumps the alkane is
simultaneously contacting, to each change the electron spin of just that part of the alkane, or C or H atoms on the bump, this causes the alkane atom to have not just the particular spin number of the entire molecule, but a plurality of different,
purposed produced spin values at the C or H atoms and orbitals at locations, like 2 near the molecule linear middle as well as 2 spin modifiers at the distal parts of an alkane, for the waveform driven interval of electron spin change duration the alkane
now has 4 spin novel catalyst reaction high availability catalytic ally much more likely to be reactive at each alkane molecule causing 24 or 4 factorial times greater catalysis and produce product production like 24 times higher Kg/second production of
liquid fuels or possibly nonthermal production of lime for or possibly catalytic production of forms of plant fertilizer that are better than ammonia formsoncrete
Catalytic converters at vehicles and HVAC, and from the 1000 or 100,000 times cheaper thin catalyst element (as cheap as mass produced aluminized candy wrapper semitransparent metal, like a CO or vehicle catalytic converter element active surface
deposited material) combined with the electromagnentic catalyst driving waveform technologies that increase product output 128-2800 times if the waveform technologies are used together causes much cheaper production of a variety of catalyst products,
like fuels, fertilizers, cement lime, agricultural and industrial chemicals, as well as much fiscally cheaper vehicle catalytic converters that produce even cleaner output, for the 80¢ amount of an autotive air filter's construction, but able to be 3D
form duplicated with slipcast or possibly soak ceramic slip into cheap paper airfilter minipassage crennalatated tube or mostly water gel air filter form , transform the ceramic slip soaked gel ceramic into hard ceramic to make a 98¢ catalytic converter
base, noting that because the catalysis now 128 times more rapid that a ceramic form for the catalytic converter could actually be 1/10 - 1/100 the size and volume for a. 98¢-9.8¢ basic form to move gases through and put electromagnet windings on, the
semitransparent thickness of the catalyst metal uses 1/100th -1/1000 the milligrams of catalyst metal of an 2021 $80 alibaba vehicle catalytic converter, at 8-80¢, and an electromagnet of metal conductive pathwaysof air such as the conductive coil shape
being at regular crevices and crenellations of the air filter new ceramic shape where an entire 1/3-1Oz of Aluminum conductor magnet windings is 3-10¢, combined the are 94-97¢ to make a catalytic converter 1-20 times as functional as a 2021 vehicle
catalytic converter

Thin catalytic near transparent metal and catalyst with waveform driven electromagnetic catalysis air quality increaser technology, along with vehicle use can be used at at 98¢ air cleanliness appliance at the dwelling, ncludin baby and children's rooms,
building hvac, just possibly city center air

Witricity and witricity antennas
Inductor core, air core difference
Ability to mass produce with printing or RFID like foil stamping
Having, at a circular loop magnetic coupling antennas, the length of the wire move back to overlap on the antenna wire that is already there before, then the wires follow a further curved path, this causes double witricity antenna coupling at the overlap,
and then a whole bunch of purposed double coupling nodes are built into the wire form, these multiple coupling nodes at some geometry could produce a resonance effect that causes greater antenna functioning distance and energy efficiency
Genetic algorithm antenna
It might not work like the 30-70% improvement of a phone antenna from a magnetize sheath, magnetic or inductor nanoparticle sheath
Pulsed availability cycle

actually shape

eneakrilterrkushst driving egtechnologkrscatslysgthickness) orxrivrfefslinerakrurlosedgdslimsskslicomete gundredslerikdicotatkkntranatkonskethingszedmmgerkzdd, or a pluralityuralktgdriving ele troagnegkcrrceltkknrevikuslysmeasurement kducerumtaneodetects
the amount of intended product produced, ostghgoredtpulsing diamagnetism heap leachate


Piezoelectric beam makers and imaging elements like phased array piezo emitters could be made to have higher energy beams with the option of narrower and wider beam beam forms from using laser peening to stiffen either the entire piece of piezo material
on all side, or a better engineered version that just laser stiffens vibrating foci, features like phase array notch walls or slot walls and depth planes, or at other piezo elements the angle perimeter of a disc, stiffening the notch in a disk, or at
piezo element stacks that add cumulatively to produce cm movement the distal stiffness enhances the form internal physics forces, perhaps while leaving the center of each bending element of a stack unpeened and softer, or even cofocal laser warmth
softening for greater bending, another thing that can be done with laser peening on a piezo phase array element is to laser peen connected lines and shapes like stiffer corner reinforcements. Notch and channel edge peening and concentric linked peening
lines that decrease flexion
Millifiore tungsten powder channels that warm to be conductive metal pathways that are plural electric supplies to a single array object with many areas of piezo power use,
ymicromachinesto

Hi hasibkhan

Go to my one drive and you will find a folder called Notepad Notes

There are maybe 20-40 things to download, some of them gave many notes inside when you look. Download these and post to Sci.Chem at Google goups

My one drive is Treons...@gmail.com and the password is tupper77

The folder all the notes are is called Notepad technology

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