I can only thank and congratulate you for the exceptional quality of your photographs and supported concepts.
The perspective and the 3D effect of the third photo are incredible. Was this slide covered or not? What was the magnification used, a matter of knowing the size of the objects?
In the fifth image, the 3D effect is also well portrayed. Are the red background lines a diffraction of the luminous edges or the outlines of other crystals?
The whole thing reminded me of the strings of gas bubbles that can be seen in ice, and of the evaporation of paint remover on the bristles of a brush forgotten in a container, forms that I've also had the good fortune of seeing in clouds. This alignment could also provide a clue as to the origin of these bubbles, which could have come from these polymer filaments whose compartmentalized insides, like pea pods, suggest that they carry or have once carried a liquid or material of some kind.
The photos of crystals without resonators are very detailed and perfectly capture all the internal complexity of these layered configurations, which can only be intentional and programmed.
Would these stamps, as the resonator photos seem to demonstrate, first shed the bubbles (QD's or bots?) that surround them and which are also present inside the crystals? This would imply that the resonator is really effective in dismantling the very basis of these highly elaborate constructions.
It would be really interesting to have a slow-motion video of these specific processes, from crystallization to load shedding under the effect of the resonator, in order to find out what is the contribution of these bubbles in and outside of the crystals and if they are the real supervisors of their construction.
By the way, and this, to end once and for all with all those who allege that what the microscopists expose are simple crystals of salt, they should retract, unless they are able to demonstrate that the native salt, microphotographed under the same conditions, has the same elements and structural arrangements as those you have so brilliantly illustrated.
Once again, thank you for sharing with us your tireless work!
Yes, the first photos are with cover glass and a resolution of 100x with an oil lens. The other photos are mostly at 400x without cover glass and the overview photos at 10x - also without cover glass.
The red outlines must be reflections. They are not on the specimen.
I am glad that the resonator prevents the build-up or slows it down considerably. This would allow other therapies to be much more successful.
It won't be easy to get a chronological sequence - as the samples were in direct contact with the resonator for 12 hours - and it will be difficult to get them under the microscope.
And as you said, they are no longer normal salt crystals. That was already the most striking thing at the beginning of my work, that the salt crystals began to change their angles when they were placed on top of each other. I assume that this is an important basis for nanotechnology, as the angle of light refraction is completely changed.
And the basis for all our lives is light - water and salt.
Bravo Silvia!
I can only thank and congratulate you for the exceptional quality of your photographs and supported concepts.
The perspective and the 3D effect of the third photo are incredible. Was this slide covered or not? What was the magnification used, a matter of knowing the size of the objects?
In the fifth image, the 3D effect is also well portrayed. Are the red background lines a diffraction of the luminous edges or the outlines of other crystals?
The whole thing reminded me of the strings of gas bubbles that can be seen in ice, and of the evaporation of paint remover on the bristles of a brush forgotten in a container, forms that I've also had the good fortune of seeing in clouds. This alignment could also provide a clue as to the origin of these bubbles, which could have come from these polymer filaments whose compartmentalized insides, like pea pods, suggest that they carry or have once carried a liquid or material of some kind.
The photos of crystals without resonators are very detailed and perfectly capture all the internal complexity of these layered configurations, which can only be intentional and programmed.
Would these stamps, as the resonator photos seem to demonstrate, first shed the bubbles (QD's or bots?) that surround them and which are also present inside the crystals? This would imply that the resonator is really effective in dismantling the very basis of these highly elaborate constructions.
It would be really interesting to have a slow-motion video of these specific processes, from crystallization to load shedding under the effect of the resonator, in order to find out what is the contribution of these bubbles in and outside of the crystals and if they are the real supervisors of their construction.
By the way, and this, to end once and for all with all those who allege that what the microscopists expose are simple crystals of salt, they should retract, unless they are able to demonstrate that the native salt, microphotographed under the same conditions, has the same elements and structural arrangements as those you have so brilliantly illustrated.
Once again, thank you for sharing with us your tireless work!
Hello Danyèle!!!
Yes, the first photos are with cover glass and a resolution of 100x with an oil lens. The other photos are mostly at 400x without cover glass and the overview photos at 10x - also without cover glass.
The red outlines must be reflections. They are not on the specimen.
I am glad that the resonator prevents the build-up or slows it down considerably. This would allow other therapies to be much more successful.
It won't be easy to get a chronological sequence - as the samples were in direct contact with the resonator for 12 hours - and it will be difficult to get them under the microscope.
And as you said, they are no longer normal salt crystals. That was already the most striking thing at the beginning of my work, that the salt crystals began to change their angles when they were placed on top of each other. I assume that this is an important basis for nanotechnology, as the angle of light refraction is completely changed.
And the basis for all our lives is light - water and salt.
Kind regards
Thank you for this great information