quantum linked spectroscopy multiphoton absorbtions scanner that is a brain and tissue and other material scanner, i think it might be possible to quantum entangle different wavelengths of photons together so that Thz to UV and all the wavelengths
between them are quantum entangled with the wavelength of photons that IC imaging detectors are most efficient at picking up, so if 2-8 emission lines, or rather spectroscopy absorption wavelengths are sufficient to uniquely identify each element, 111
most frequently occurring moieties or groups, and 111 unique different physiochemicals, then having say 111 or 1111 entangled photosensor energizing, data making photons for each spectroscopy thing-particular absorbed frequency, where a bunch of the
entangled photons energize a sensor, possibly a single spin polarized sensor, makes it occur that at a scanning line or raster beam, spectroscopy functions with fewer wavelength customized photons, which can go with higher tissue reach shine-reach photon
travel depth at the full depth of the brain and other tissues, as well as higher ability to detect what ion, element, chemical, physiochemical and physio structure is where at the brain from wavelength absorption uniqueness, also, it could be possible to
find the spectroscopy differences dynamically at a scanning movie between electrically charged physiochemicals and uncharged physiochemicals to show and image electrical pulses travelling through the brain, CNS, nerves, electrocardiocytes, and other cyte
and cytostructure electrical charge movements at the body

This might be too energetic for tissue scanning, but could be used for other scanning that identifies ifferent elements that are part of molecules and other structures, using negative refractive index optics to make 10nm to 30nm laser light intensity
areas, or of greater utility, laser beams, make laser Wakefield accelerators that are strong enough to make gluon or quarks, just like multimile magnetic accelerators are able to make gluons and quarks, possibly as beams, then do scanning at nuclei,
atoms and other larger multiatom structures with the attometer or zeptometer sized gluons and quarks and beams
At gluon and quark possible beam makers, negative refractive index optics on laser modifying a millimeter diameter laser Wakefield array laser to be 42-14 times narrower diameter at, and than 420nm near UV light visible light, or 44-14 times narrower
diameter than 440nm blue light, laser Wakefield particle accelerators are published online as being about 1/3 as energy height intense as very large magnetic particle accelerators that are published as being Able to make gluons and quarks that grouped
together, make protons and neutrons

Other types of scanners could be much like MRI spin alignment, RF emission, and antenna EM receptor scanners that use novel fractional spin materials like heusen materials that make novel multiple fields with 3...32...720...38-39K completely different
kinds of pole identities, such that their field causes synchronized spin at amounts different than 1/2 at body tissues, if that even occurs, causing things different than rf EM radio emissions, which are detected as tomographic arrays while and because
they utilize things different than spin 1/2 electron/photon/radio wavelength effects

Different than antenna is a chemical catalyst with similarities to magnetic catalyst, or an electrical catalyst, noting that instead of spin 1/2 electricity or magnetism, different emergent 3,5...8...32...720 multipole, non electron, fractional spin
emergent field that has multiple poles and possibly new field line effects, is tested for catalysis and utilized

Comment on a meme, If you look up rf, radio frequency, yeast, metabolism growth on the public pubmed or PMC databases you can read a journal article from 1950-1970 that tried scanning many frequencies on yeast, some tripled metabolism/growth, some
decreased it to 1/3, put longevizing frequencies on the utility grid

Ceramides that are pharmacetically active, rather than just being water movement barriers to cause hydration exist and are published as reducing wrinkles more than 80%, that suggests the human body may naturally produce beauty ceramide, and that those
genes can be epigenetically upregulated with acetylatation, also any ceramide that the body produces that decrease activity of beauty ceremides could be epigenetically methylated an downregulate o cause greater beautification effect

I read that the amino acid proline is associated with anxiety and depression, and that putting the human gi tract bacteria that make proline into mice make the mice depressed, that suggests

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