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The '''Theory of Geometric Unity''' is an attempt by Eric Weinstein to produce a unified field theory by recovering the different, seemingly incompatible geometries of fundamental physics from a general structure with minimal assumptions. For the latest updates on the theory, visit '''https://geometricunity.org/'''.
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<div style="float:right;padding:20px;">__TOC__</div>
Β 
<blockquote style="width:500px">"The source code of the universe is overwhelmingly likely to determine a purely geometric operating system written in a uniform programming language." - Eric Weinstein </blockquote>


* A first video presentation of the theory is available on [https://www.youtube.com/watch?v=Z7rd04KzLcg Youtube]
* A first video presentation of the theory is available on [https://www.youtube.com/watch?v=Z7rd04KzLcg Youtube]
* A transcript of the talk is available [[A_Portal_Special_Presentation-_Geometric_Unity:_A_First_Look|here]].
* A transcript of the talk is available [[A_Portal_Special_Presentation-_Geometric_Unity:_A_First_Look|here]].
* Preliminary notes by the community on the talk are available in a [https://docs.google.com/document/d/1gPU_bJR5wBs7MCsNGCW5Y06Jh3SzarX5OnJHyLxQfDQ/edit Google Doc]
* Notes by the community on the talk are available in a [https://docs.google.com/document/d/1gPU_bJR5wBs7MCsNGCW5Y06Jh3SzarX5OnJHyLxQfDQ/edit Google Doc]
* [https://www.youtube.com/watch?v=wf0_nMaQ6tA#t=2h16m27s Discussion on the Joe Rogan show]
* [https://www.youtube.com/watch?v=wf0_nMaQ6tA#t=2h16m27s Discussion on the Joe Rogan show]
* [https://www.youtube.com/watch?v=N_aN8NnoeO0 PBS SpaceTime]
<div style="float:right;padding:20px;">__TOC__</div>
<blockquote style="width:80%;max-width:500px">"The source code of the universe is overwhelmingly likely to determine a purely geometric operating system written in a uniform programming language." - Eric Weinstein </blockquote>
== Project Ideas ==
* Unpack Eric's first talk by providing additional explanations for the concepts and problems introduced. One possible format would be to annotate it in a [https://genius.com/web-annotator Genius.com] format.
* Organize voice/video chats to watch the talk together and stop every few minutes to discuss it. (Multiple calls would be needed to go through the whole talk.)
*3


== Key Ideas ==
== Key Ideas ==
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{| class="wikitable"
{| class="wikitable"
| '''1.''' The Arena (<math> X, g_{\mu\nu}</math>)
| '''1.''' The Arena (<math> Xg_{\mu\nu}</math>)
| <math>R_{\mu\nu} - \frac{1}{2} Rg_{\mu\nu} + \Lambda g_{\mu\nu} =Β  \left( \dfrac{8 \pi G}{c^4} T_{\mu\nu}\right)</math>
| <math>R_{\mu\nu} - \frac{1}{2} Rg_{\mu\nu} + \Lambda g_{\mu\nu} =Β  \left( \frac{1}{c^4} 8\pi GT_{\mu\nu}\right)</math>
| the Einstein field equations, which describe gravity in the theory of general relativity


|-
|-
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<math> SU(3) \times SU(2) \times U(1)</math>
<math> SU(3) \times SU(2) \times U(1)</math>
| <math>d_A^*F_A=J(\psi)</math>
| <math>d_A^*F_A=J(\psi)</math>
| the Yang-Mills equation, which governs all other force fields in Yang-Mill-Maxwell theory
|-
|-
| '''3.''' Matter
| '''3.''' Matter
Antisymmetric, therefore light
Antisymmetric, therefore light
| <math>(i \hbar \gamma^\mu \partial_\mu - m) \psi = 0</math>
| <math>\partial_A \psi = m \psi</math>
| the Dirac equation, the equation of motion describing matter particles, or fermions
|}
|}


'''Key guiding question:''' what are the compatibilities and incompatibilities between these puzzle pieces on the geometric level before the theory is created quantum mechanical.
'''Key guiding question:''' what are the compatibilities and incompatibilities on the geometric level before the theory is created quantum mechanical. Β 
Β 
* From Einstein's general relativity, we take the Einstein projection of the curvature tensor of the Levi-Civita connection of the metric $$P_E(F_{\Delta^LC})$$
* From Yang-Mills-Maxwell-Anderson-Higgs theory of gauge fields, we take the adjoint exterior derivative coupled to a connection $$d^\star_A F_A$$
Β 


=== Problem Nr. 1: Einstein's Theory of General Relativity is not a proper Gauge Theory ===
=== Problem Nr. 1: Einstein's Theory of General Relativity is not a proper Gauge Theory ===


* From Einstein's general relativity, we take the Einstein projection of the curvature tensor of the Levi-Civita connection <math>\nabla</math> of the metric <math>P_E(F_{\nabla})</math>
'''Idea:''' What if the $$F$$'s are the same in both contexts?
* From Yang-Mills-Maxwell-Anderson-Higgs theory of gauge fields, we take the adjoint exterior derivative coupled to a connection <math>d^\star_A F_A</math>


'''Idea:''' What if the <math>F</math>'s are the same in both contexts?
But we're applying two different operators.
Β 
Further, supposing these <math>F</math>'s are the same, then why apply two different operators?


'''Thus the question becomes:''' Is there any opportunity to combine these two operators?
'''Thus the question becomes:''' Is there any opportunity to combine these two operators?


A problem is that the hallmark of the Yang-Mills theory is the freedom to choose the data, the internal quantum numbers that give all the particles their personalities beyond the mass and the spin. We can allow the gauge group of symmetries to act on both sides of the equation, but the key problem is that: <math>P_E(F_{\nabla h}) \neqΒ  h^{-1} P_E(F_{\nabla}) h </math>. If we act on connections on the right and then take the Einstein projection, this is not equal to first taking the projection and then conjugating with the gauge action. The gauge rotation is only acting on one of the two factors. Yet the projection is making use of both of them. So there is a fundamental incompatibility in the claim that Einstein's theory is a gauge theory relies more on analogy than an exact mapping between the two theories.
A problem is that the hallmark of the Yang-Mills theory is the freedom to choose the data, the internal quantum numbers that give all the particles their personalities beyond the mass and the spin. We can allow the gauge group of symmetries to act on both sides of the equation, but the key problem is that: $$P_E(F_{\Delta^{LC} h}) \neqΒ  h^{-1} P_E(F_{\Delta^{LC} }) h $$. If we act on connections on the right and then take the Einstein projection, this is not equal to first taking the projection and then conjugating with the gauge action. The gauge rotation is only acting on one of the two factors. Yet the projection is making use of both of them. So there is a fundamental incompatibility in the claim that Einstein's theory is a gauge theory relies more on analogy than an exact mapping between the two theories. Β 


=== Problem Nr. 2: Spinors are sensitive to the metric ===
=== Problem Nr. 2: Spinors are sensitive to the metric ===
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<blockquote>
<blockquote>
"So if we're going to take the spin-2 <math>G_{\mu\nu}</math> field to be quantum mechanical, if it blinks out and does whatever the quantum does between observations. In the case of the photon, it is saying that the waves may blink out, but the ocean need not blink out. In the case of the Dirac theory, it is the ocean, the medium, in which the waves live that becomes uncertain itself. So even if you're comfortable with the quantum, to me, this becomes a bridge too far. So the question is: "How do we liberate the definition?"
"So if we're going to take the spin-2 $$G_{\mu\nu}$$ field to be quantum mechanical, if it blinks out and does whatever the quantum does between observations. In the case of the photon, it is saying that the waves may blink out, but the ocean need not blink out. In the case of the Dirac theory, it is the ocean, the medium, in which the waves live that becomes uncertain itself. So even if you're comfortable with the quantum, to me, this becomes a bridge too far. So the question is: "How do we liberate the definition?"
How do we get the metric out from its responsibilities? It's been assigned far too many responsibilities. It is responsible for a volume form; for differential operators; it's responsible for measurement; it's responsible for being a dynamical field, part of the field content of the system."
How do we get the metric out from its responsibilities? It's been assigned far too many responsibilities. It is responsible for a volume form; for differential operators; it's responsible for measurement; it's responsible for being a dynamical field, part of the field content of the system."
</blockquote>
</blockquote>
<div class="toccolours mw-collapsible mw-collapsed" style="width:1000px; overflow:auto;">
<div style="font-weight:bold;line-height:1.6;">Comments</div>
<div class="mw-collapsible-content">
'''Mark-Moon:''' Can anyone explicate Eric's point about spinor fields depending (in a bad way) on the metric in conventional theories, in a way that is no longer the case in GU? I feel like this is the original idea in GU that I'm closest to being able to understand, but I don't think I quite get it yet.
'''Chain:''' Yeah I was wondering this as well, as far as I was aware you just need a spin structure, which only depends on the topology and atlas on the manifold and not on the choice of metric [https://math.stackexchange.com/questions/2836814/dependence-of-spinor-bundle-on-choice-of-metric]. Perhaps the point is that although each choice of metric yields an isomorphic spin structure, perhaps there is not a canonical isomorphism in the same way as in GU where the bundle of metrics Y (U in the talk) is isomorphic to the Chimeric bundle C, but the choice of isomorphism is given by a choice of connection on Y. Although I don't know why the chimeric bundle would come with a canonical choice of spin structure either, which seems to be Eric's claim
to define spinors you would need a clifford bundle and hence a choice of metric on the chimeric bundle
</div></div>


=== Problem Nr. 3:Β  The Higgs field introduces a lot of arbitrariness ===
=== Problem Nr. 3:Β  The Higgs field introduces a lot of arbitrariness ===
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''This would be a program for some kind of unification of Dirac's type, but in the force sector. The question is, "does this really make any sense? Are there any possibilities to do any such thing?"''
''This would be a program for some kind of unification of Dirac's type, but in the force sector. The question is, "does this really make any sense? Are there any possibilities to do any such thing?"''




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[[File:GU vision.png|right|400px|right]]
[[File:GU vision.png|right|400px|right]]


Let's talk about what the Geometric Unity (GU) proposal is. First of all, we observe that we have a division into intrinsic theories and auxiliary theory and between physics and mathematics. An intrinsic physical theory would be general relativity. An auxiliary physical theory would be the Yang-Mills theory, with the freedom to choose internal quantum numbers. Β 
Let's talk about what the Geometric Unity (GU) proposal is. First of all, we observe that we have a division into intrinsic theories and auxiliary theory and between physics and mathematics. And intrinsic physical theory would be general relativity. An auxiliary physical theory would be the Yang-Mills theory, with the freedom to choose internal quantum numbers. Β 


At the mathematical level, an intrinsic theory would be, the older semi-Riemannian geometry. The study of manifolds with length and angle. Auxiliary geometry is what we're going to call fiber bundle theory or modern gauge theory. Β 
At the mathematical level, an intrinsic theory would be, the older semi-Riemannian geometry. The study of manifolds with length and angle. Auxiliary geometry is what we're going to call fiber bundle theory or modern gauge theory. Β 


''Geometric Unity is the search for some way to break down the walls between these four boxes.''
''Geometric Unity is the search for some way to break down the walls between these four boxes.''
</blockquote>


What we'd like to come up with is some theory that is intrinsic, but allows us to play some of the games that exist in other boxes. How can we fit? How can we try to have our cake and eat it too? And use all the full suite of techniques that are available to us?
== Layman Explanations ==


Our perspective is that the quantum that may be the comparatively easy part and that the unification of the geometry, which has not occurred, may be what we're being asked to do.
a theory is like a newspaper story
</blockquote>
* where/when -> space/time
* who/what -> fermions/bosons
* how/why -> rules/what generates the rules (equations and lagrangians)


== Frequently Asked Questions ==
== Frequently Asked Questions ==
Β 
Please help answer these questions!


What will this theory predict?
What will this theory predict?


When will Eric release the next part?
When will Eric release the next part?
On the Lex Fridman Podcast, Eric states that he may release a paper on April Fool's day, 2021
on the topic of Geometric Unity.


Why hasn't Eric gone through the normal scientific route? Arxiv.org? Academic journals?
Why hasn't Eric gone through the normal scientific route? Arxiv.org? Academic journals?


Answer: He is planning on releasing his theory through the traditional route of publishing
== Related existing theories ==
an academic paper in the near future. He is unlikely to publish in any academic journal that
Causal Fermion Systems:
has a paywall - he has voiced concerns over price gouging that many academic journals engage
[https://www.uni-regensburg.de/mathematik/mathematik-1/]
in.
Β 
[[Category:Geometric Unity]]
[[Category:Mathematics]]
[[Category:Physics]]
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