The beauty of the Twisted Light Void Anchoring Framework (TLVAF) is that it doesn’t try to tear down the Standard Model – it explains why the Standard Model works so well in the first place. Rather than replacing our best physics, it shows that the masses, mixings, and interactions we’ve measured for decades are not arbitrary numbers but the natural consequence of deeper geometric patterns in the void. Where the Standard Model needs 26 separate inputs, TLVAF reduces them to just 12 while still reproducing all the same successes – and then goes further, predicting entirely new effects like orbital angular momentum resonances and specific glueball mass ratios.
This consistency-with-extension makes TLVAF unusual in the world of bold theories. It doesn’t discard the hard-won precision of existing physics, but instead lifts the curtain on why the numbers come out the way they do. Think of the Standard Model as the “user interface” of nature: it works, but doesn’t reveal the code underneath. TLVAF is an attempt to read that code — to show how familiar physics emerges from twisted-light structures anchored in the void. If experiments over the next decade confirm its predictions, physics won’t lose the Standard Model; it will gain the explanation behind it.