So, m'dear, would you say that the UCSD nano removal experiment using oscillating currents is kind of like putting a micro Lakhovsky coil in the blood? They're both using the same principle from what I can see! This makes me wonder if, when one uses the coil set up externally, would one be using the chelators either before, during or after exposure, be actively flushing out the nanotech?
I don't know if you've seen this yet, but SAM's SubStack is proposing a very interesting nano mitigation strategy using a blood sample on a slide being "treated" or more appropriately, nano being disrupted in a mirrored cube with two directly opposing lasers. The client sits near the cube with their blood sample being lasered and, from what I can tell, possibly time-reversed somehow. The treatment is based on quantum entanglement. Her clients are seeing very promising results
Here's what she says: "As already mentioned, synthetic biology uses a kind of communication grid, which is partly based on magnetism and non-linear optics, which means that it can tunnel through time."
100% regarding Lakhovsky coil to concentrate nanoparticles.
Regarding the laser approach there have been experiments in the past with coherent lasers (light) using photons as well (e.g. plasmons).
I'm looking at something simple like Lakhovsky with Near-field. Laser makes sense, but something simple and "passive" like "toroid" for larger scale Living and on body or by body.
Will look into the DIY laser approach as well and provide feedback. Basically, you have two approaches, one using electrons (e.g. have mass) and the second using photons (e.g. have no mass).
Keep in mind the red blood cells RBCs in the study above are also in a toroid shape, but have Iron in them (via porphyrin group). So there is an interaction between two toroids, one with iron and one without that is resulting in the agglomeration of nanoparticles. Iron is a transition metal and the proteins within the red blood cell are key for the function of respiration on earth for living beings.
So, m'dear, would you say that the UCSD nano removal experiment using oscillating currents is kind of like putting a micro Lakhovsky coil in the blood? They're both using the same principle from what I can see! This makes me wonder if, when one uses the coil set up externally, would one be using the chelators either before, during or after exposure, be actively flushing out the nanotech?
I don't know if you've seen this yet, but SAM's SubStack is proposing a very interesting nano mitigation strategy using a blood sample on a slide being "treated" or more appropriately, nano being disrupted in a mirrored cube with two directly opposing lasers. The client sits near the cube with their blood sample being lasered and, from what I can tell, possibly time-reversed somehow. The treatment is based on quantum entanglement. Her clients are seeing very promising results
https://sam368.substack.com/p/sams-lasercube-the-prototype-is-ready
Here's what she says: "As already mentioned, synthetic biology uses a kind of communication grid, which is partly based on magnetism and non-linear optics, which means that it can tunnel through time."
100% regarding Lakhovsky coil to concentrate nanoparticles.
Regarding the laser approach there have been experiments in the past with coherent lasers (light) using photons as well (e.g. plasmons).
I'm looking at something simple like Lakhovsky with Near-field. Laser makes sense, but something simple and "passive" like "toroid" for larger scale Living and on body or by body.
Will look into the DIY laser approach as well and provide feedback. Basically, you have two approaches, one using electrons (e.g. have mass) and the second using photons (e.g. have no mass).
Keep in mind the red blood cells RBCs in the study above are also in a toroid shape, but have Iron in them (via porphyrin group). So there is an interaction between two toroids, one with iron and one without that is resulting in the agglomeration of nanoparticles. Iron is a transition metal and the proteins within the red blood cell are key for the function of respiration on earth for living beings.
Here is a good intro to organic chemistry and the associated red blood cell with transition metal iron and key proteins that need to not be disrupted for it to function properly (e.g. electrosmog can mess with the protein functionality): https://wou.edu/chemistry/courses/online-chemistry-textbooks/ch105-consumer-chemistry/chapter-2-atoms-elements-periodic-table/