TruthArchive.ai - Tweets Saved By @NotTheMacAnon1
@PinkDragonflies - Pink Dragonfly
@const_solutions Please look through my friend's media @NotTheMacAnon1 for visual representations that correlate to the CYMATICS NF has been producing, please. I'm sure we will discover more that we can further investigate. I feel there is a connection. THE MAC is brilliant, like you. 💞
@PinkDragonflies - Pink Dragonfly
@NotTheMacAnon1 @const_solutions @smilingsally17 @const_solutions & @NotTheMacAnon1 are my two brilliant friends. I believe their works will be found to have correlations. I've learned so much from THE MAC. 💞🙏💞
@NotTheMacAnon1 - THE MAC
@PinkDragonflies @const_solutions @smilingsally17 🫶🏻
@PinkDragonflies - Pink Dragonfly
As an archeologist/anthropologist, I never believed the theories put forth in our textbooks. Seems there is way more info needed and I feel a combo of fields will help to solve these 'mysteries'. THE MAC , does the 'flower' make a similar or perfect match to pics you have published? I immediately thought of what I've seen & read on your page, when I saw the pics of the cymatics in varying forms. Not all the word frequency cymatics has been put out yet. Check these petroglyph from Pyramid Lake Nev.👀
@NotTheMacAnon1 - THE MAC
Note: •Vortices of light: When multiple vortices of light are combined, they can create specific "petal" patterns, which researchers at institutions like Northrop Grumman suggest could potentially be used as an "alphabet" for transmitting information in future quantum computing applications. •Hopfions: In studies of stable hopfions in trapped quantum droplets, the intersecting curves that form multi-petal structures with a specific number of petals correspond to the hopfion charge.
@NotTheMacAnon1 - THE MAC
The image displays experimentally generated transverse intensity patterns of Laguerre-Gaussian (LG) petal-like laser beams. These patterns are created by the superposition of two LG modes with opposite azimuthal orders. •The images labeled (b), (c), (f), and (g) show an increasing number of "petals" or lobes as the azimuthal order ( •l 𝑙 ) of the laser beam increases. •Image (b) corresponds to  •l = 3 𝑙 = 3 , showing 6 distinct lobes. •Image (c) corresponds to  •l = 4 𝑙 = 4 , showing 8 distinct lobes. •Image (f) corresponds to  •l = 5 𝑙 = 5 , showing 10 distinct lobes. •Image (g) corresponds to a higher-order mode, likely  •l = 6 𝑙 = 6 , showing 12 distinct lobes.
@NotTheMacAnon1 - THE MAC
@PinkDragonflies @const_solutions @smilingsally17 Typical experimentally obtained transverse intensity patterns of LG0,l petal‐like lasers in Yb:YAG/YVO4 RML. a) LG0,2, b) LG0,3, c) LG0,4, d) LG0,5, e) LG0,6, f) LG0,7, g) LG0,8, h) LG0,9. https://t.co/E6z3LOqE3v
@NotTheMacAnon1 - THE MAC
@PinkDragonflies @const_solutions @smilingsally17 Broadband vortex arrays distributed in 2D n × n vortices are extremely needed for multiple microparticle manipulation, high‐capacity optical communication, and quantum information.
@NotTheMacAnon1 - THE MAC
@PinkDragonflies @const_solutions @smilingsally17 This image illustrates the use of a metasurface to generate and manipulate optical vortices, which are light beams that carry orbital angular momentum (OAM)
@NotTheMacAnon1 - THE MAC
@PinkDragonflies @const_solutions @smilingsally17 B A G+1
@NotTheMacAnon1 - THE MAC
@PinkDragonflies @const_solutions @smilingsally17 G+1
@NotTheMacAnon1 - THE MAC
@PinkDragonflies @const_solutions @smilingsally17 G https://t.co/mI2AbERXMo
@NotTheMacAnon1 - THE MAC
@PinkDragonflies @const_solutions @smilingsally17 Encoding and decoding of orbital angular momentum for wireless optical interconnects on chip https://t.co/bar6Jupsyo
@NotTheMacAnon1 - THE MAC
@PinkDragonflies @const_solutions @smilingsally17 GOD BLESS