... | ... | @@ -73,7 +73,7 @@ Three sectors are shown, together with the dipole (bz) field in Tesla and a low |
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OPAL can also model the full acceleration cycle for an FFA. There is an example FFA with RF active here:
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[example_3-OPAL-2021.1.0.tar.gz](uploads/a17febede9a3dfe44548f02439ad7a8c/example_3-OPAL-2021.1.0.tar.gz)
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[example_3-OPAL-2021.1.0.tar.gz](uploads/a17febede9a3dfe44548f02439ad7a8c/example_3-OPAL-2021.1.0.tar.gz) (Tested on OPAL-2021.1.0)
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Unpack it and run it like:
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... | ... | @@ -114,7 +114,7 @@ It looks like the acceleration worked! There are actually two particle trajector |
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OPAL can track through a vertical FFA field, where the orbit moves vertically as the energy increases. This is unlike a conventional hFFA where the orbit moves radially. There is an example of OPAL with a vertical FFA field here:
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[example_4-OPAL-2021.1.0.tar.gz](uploads/fc769ebbc830826c9106b635bf0bb691/example_4-OPAL-2021.1.0.tar.gz)
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[example_4-OPAL-2021.1.0.tar.gz](uploads/fc769ebbc830826c9106b635bf0bb691/example_4-OPAL-2021.1.0.tar.gz) (Tested on OPAL-2021.1.0)
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Run it like
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... | ... | @@ -150,7 +150,7 @@ This shows the field in the vertical direction with the trajectory of the closed |
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[example_3-OPAL2.4.0.tar.gz](uploads/c1243e5a67b4402c7898c7b18e7b961a/example_3-OPAL2.4.0.tar.gz) (Tested on OPAL2.4.0_2)
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[example_4-OPAL2.4.0.tar.gz](uploads/a984d433c09ffe2fc2c7b1c70dc889fe/example_4-OPAL2.4.0.tar.gz)
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[example_4-OPAL2.4.0.tar.gz](uploads/a984d433c09ffe2fc2c7b1c70dc889fe/example_4-OPAL2.4.0.tar.gz) (Tested on OPAL2.4.0_2)
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## OPAL 2.0.0
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(Between 2.4.0 and 2.0.0: Plotting scripts were updated to use matplotlib. Various changes to the lattices.)
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