Induced theta vacua in heavy ion collisions
In the following we demonstrate that it is possible to create non-zero θ-states during heavy ion collisions. Using the effective Lagrangian for low energy QCD derived in [1, 2], we will show numerically that in the period immediately following a quench, the chiral condensate phases fa and fa will r...
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2009
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ndltd-UBC-oai-circle.library.ubc.ca-2429-105312018-01-05T17:35:24Z Induced theta vacua in heavy ion collisions Buckley, Kirk B. W. In the following we demonstrate that it is possible to create non-zero θ-states during heavy ion collisions. Using the effective Lagrangian for low energy QCD derived in [1, 2], we will show numerically that in the period immediately following a quench, the chiral condensate phases fa and fa will relax to the value ~ θ /N[sub f]. This is a true condensate in the sense that if the volume of the system is changed, the zero mode still remains. If such a state can be created, it would decay by various mechanisms to the θ[sup fund] = 0 state which exists in our world. We will discuss the experimental signature for the produced non-trivial θ-state. In particular, we will provide evidence that the creation of a non-zero θ -state would result in an excess of low momentum particles (π⁰, ƞ, and ƞ'-mesons) , in the (10 - 100) MeV range. This phenomena could possibly account for the excess of low momentum dileptons observed at CERN [3, 4]. Science, Faculty of Physics and Astronomy, Department of Graduate 2009-07-09T21:31:27Z 2009-07-09T21:31:27Z 2000 2000-11 Text Thesis/Dissertation http://hdl.handle.net/2429/10531 eng For non-commercial purposes only, such as research, private study and education. Additional conditions apply, see Terms of Use https://open.library.ubc.ca/terms_of_use. 2395110 bytes application/pdf |
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NDLTD |
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English |
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Others
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NDLTD |
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In the following we demonstrate that it is possible to create non-zero θ-states during
heavy ion collisions. Using the effective Lagrangian for low energy QCD derived in [1, 2], we will show numerically that in the period immediately following a quench, the chiral condensate phases fa and fa will relax to the value ~ θ /N[sub f]. This is a true condensate in the sense that if the volume of the system is changed, the zero mode still remains. If such a state can be created, it would decay by various mechanisms to the θ[sup fund] = 0 state
which exists in our world. We will discuss the experimental signature for the produced
non-trivial θ-state. In particular, we will provide evidence that the creation of a non-zero θ -state would result in an excess of low momentum particles (π⁰, ƞ, and ƞ'-mesons) , in
the (10 - 100) MeV range. This phenomena could possibly account for the excess of low
momentum dileptons observed at CERN [3, 4]. === Science, Faculty of === Physics and Astronomy, Department of === Graduate |
| author |
Buckley, Kirk B. W. |
| spellingShingle |
Buckley, Kirk B. W. Induced theta vacua in heavy ion collisions |
| author_facet |
Buckley, Kirk B. W. |
| author_sort |
Buckley, Kirk B. W. |
| title |
Induced theta vacua in heavy ion collisions |
| title_short |
Induced theta vacua in heavy ion collisions |
| title_full |
Induced theta vacua in heavy ion collisions |
| title_fullStr |
Induced theta vacua in heavy ion collisions |
| title_full_unstemmed |
Induced theta vacua in heavy ion collisions |
| title_sort |
induced theta vacua in heavy ion collisions |
| publishDate |
2009 |
| url |
http://hdl.handle.net/2429/10531 |
| work_keys_str_mv |
AT buckleykirkbw inducedthetavacuainheavyioncollisions |
| _version_ |
1718588580737056768 |