models:speculative_models:axion
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models:speculative_models:axion [2017/12/17 11:09] jakobadmin [Student] |
models:speculative_models:axion [2019/07/01 09:27] (current) jakobadmin [Criticism] |
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| - | ====== The Axion ====== | + | ====== Axion Models ====== |
| - | <tabbox Why is it interesting?> | ||
| - | Axions are proposed as a solution to the [[open_problems:strong_cp_problem|strong CP problem]]. In some sense, it's the simplest solution, because the QCD vacuum energy has a minimum at $\bar{\theta}=0$ and the axion allows the vacuum to relax to this ground state. Without the axion the QCD vacuum is frozen and $\bar{\theta}$ is therefore fixed at some not-necessarily minimum value. | + | <tabbox Intuitive> |
| - | <tabbox Layman> | + | * A great laymen discussion of the axion mechanism is [[https://www.susanjfowler.com/blog/2016/9/17/from-the-fledgling-physicist-archives-an-introduction-to-axions|An Introduction To Axions]] by Susan J Fowler. |
| - | * A great laymen discussion of the axion mechanism is [[https://www.susanjfowler.com/blog/2016/9/17/from-the-fledgling-physicist-archives-an-introduction-to-axions|From The Fledgling Physicist Archives: An Introduction To Axions]] by Susan J Fowler. | + | ---- |
| <blockquote> | <blockquote> | ||
| - | One possibility is provided by the fact that the sate with $\theta=0$ is the bottom of the zone and thus has the lowest energy. This means if $\theta$ becomes a dynamical variable, the vacuum can relax to the $\theta=0$ state (just like electrons can drop to the bottom of the conduction band by emitting phonons). This is the basis of the axion mechanism [190-192]. The axion is a hypothetical pseudo-scalar particle, which couples to $G \tilde G$. The equations of motion for the axion field automatically remove the effective $\theta$ term, which is now a combination of $\theta_{QCD}$ and the axion expectation value. Experimental limits on the axion coupling are very severe, but an "invisible axion" might still exist. | + | One possibility is provided by the fact that the state with $\theta=0$ is the bottom of the zone and thus has the lowest energy. This means if $\theta$ becomes a dynamical variable, the vacuum can relax to the $\theta=0$ state (just like electrons can drop to the bottom of the conduction band by emitting phonons). This is the basis of the axion mechanism [190-192]. The axion is a hypothetical pseudo-scalar particle, which couples to $G \tilde G$. The equations of motion for the axion field automatically remove the effective $\theta$ term, which is now a combination of $\theta_{QCD}$ and the axion expectation value. Experimental limits on the axion coupling are very severe, but an "invisible axion" might still exist. |
| <cite>[[https://books.google.de/books?id=rbcQMK6a6ekC&lpg=PA129&ots=kb7yWQczYE&dq=%22pure%20gauge%22%20zero%20field%20strength%20vacuum%20not%20gauge%20invariant&hl=de&pg=PA135#v=onepage&q&f=false|page 138 in The QCD Vacuum, Hadrons and Superdense Matter]] | <cite>[[https://books.google.de/books?id=rbcQMK6a6ekC&lpg=PA129&ots=kb7yWQczYE&dq=%22pure%20gauge%22%20zero%20field%20strength%20vacuum%20not%20gauge%20invariant&hl=de&pg=PA135#v=onepage&q&f=false|page 138 in The QCD Vacuum, Hadrons and Superdense Matter]] | ||
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| </blockquote> | </blockquote> | ||
| | | ||
| - | <tabbox Student> | + | <tabbox Concrete> |
| + | |||
| + | * A really great and short introduction is [[https://www.sciencedirect.com/science/article/pii/S1631070511002039|The strong CP problem by Pierre Sikivie]] | ||
| * [[https://arxiv.org/abs/1712.03018|Axions and ALPs: a very short introduction]] by David J. E. Marsh | * [[https://arxiv.org/abs/1712.03018|Axions and ALPs: a very short introduction]] by David J. E. Marsh | ||
| - | <tabbox Researcher> | + | |
| + | |||
| + | <tabbox Abstract> | ||
| * [[https://arxiv.org/abs/1511.02867|The QCD axion, precisely]] by Giovanni Grilli di Cortona, Edward Hardy, Javier Pardo Vega, Giovanni Villadoro | * [[https://arxiv.org/abs/1511.02867|The QCD axion, precisely]] by Giovanni Grilli di Cortona, Edward Hardy, Javier Pardo Vega, Giovanni Villadoro | ||
| | | ||
| - | <tabbox Examples> | ||
| - | --> Example1# | ||
| - | + | <tabbox Why is it interesting?> | |
| - | <-- | + | |
| - | + | ||
| - | --> Example2:# | + | |
| - | + | ||
| - | + | ||
| - | <-- | + | |
| - | <tabbox FAQ> | + | Axions are proposed as a solution to the [[open_problems:strong_cp_puzzle|strong CP problem]]. In some sense, it's the simplest solution, because the QCD vacuum energy has a minimum at $\bar{\theta}=0$ and the axion allows the vacuum to relax to this ground state. Without the axion the QCD vacuum is frozen and $\bar{\theta}$ is therefore fixed at some not-necessarily minimum value. |
| | | ||
| <tabbox History> | <tabbox History> | ||
| - | For a great discussion of the history of axion models, see Axions: Past, Present, and Future by Mark Srednicki | + | For a great discussion of the history of axion models, see [[https://arxiv.org/abs/hep-th/0210172|Axions: Past, Present, and Future]] by Mark Srednicki |
| + | |||
| + | ---- | ||
| <blockquote> | <blockquote> | ||
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| <tabbox Criticism> | <tabbox Criticism> | ||
| + | |||
| + | <blockquote> | ||
| + | |||
| + | It may strike the reader (and has struck the author) that | ||
| + | enormous theoretical superstructures are here being erected upon | ||
| + | a very narrow foundation. | ||
| + | The whole superstructure of axions could | ||
| + | be made obsolete if a good alternative approach to the problem of | ||
| + | strong CP invariance were found. | ||
| + | Even if this does happen, I am | ||
| + | confident that techniques for dealing with approximate Nambu- | ||
| + | Goldstone bosons and their phenomenological (including cosmological) | ||
| + | implications will be of enduring interest -- so I won't be completely wasting your time.<cite>THE U(1) PROBLEM: | ||
| + | INSTANTONS, AXIONS, AND FAMILONS by | ||
| + | Frank Wilczek </cite></blockquote> | ||
| + | |||
| <blockquote> | <blockquote> | ||
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| <cite>[[https://arxiv.org/pdf/1608.08969.pdf|Domestic Axion]] Gia Dvali</cite> | <cite>[[https://arxiv.org/pdf/1608.08969.pdf|Domestic Axion]] Gia Dvali</cite> | ||
| </blockquote> | </blockquote> | ||
| + | |||
| + | <blockquote>The notion of Peccei–Quinn (PQ) symmetry may seem contrived. Why should there be a U(1) symmetry which is broken at the quantum level but which is exact at the classical level? However, the reason for PQ symmetry may be deeper than we know at present. String theory contains many examples of symmetries which are exact classically but which are broken by quantum anomalies, including PQ symmetry [17–19]. Within field theory, there are examples of theories with automatic PQ symmetry, i.e. where PQ symmetry is a consequence of just the particle content of the theory without adjustment of parameters to special values. <cite>[[https://www.sciencedirect.com/science/article/pii/S1631070511002039|The strong CP problem by Pierre Sikivie]]</cite></blockquote> | ||
| + | |||
| + | <blockquote>There, a global U(1) symmetry (the PQ symmetry) which is almost exact but broken by the axial anomaly of QCD plays a crucial role. After spontaneous breaking, the effective θ-angle of QCD is cancelled by the vacuum expectation value (VEV) of the associated pseudo Nambu-Goldstone boson, the axion a. The origin of such a convenient global symmetry is, however, quite puzzling from the theoretical point of view in many aspects. By definition, the PQ symmetry is not an exact symmetry. Besides, the postulation of global symmetries is not comfortable in the sense of general relativity. It is also argued that all global symmetries are broken by quantum gravity effects [5–10]. If we | ||
| + | could regard the PQ symmetry as a U(1) gauge symmetry, there would be no suspicion about the exactness and | ||
| + | the consistency with quantum gravity. The PQ symmetry is, however, broken by the QCD anomaly, and hence, | ||
| + | it cannot be a consistent gauge symmetry as it is. <cite>https://arxiv.org/abs/1703.01112</cite></blockquote> | ||
| </tabbox> | </tabbox> | ||
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