Creating pull request for 10.21105.joss.04992

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+        <full_title>Journal of Open Source Software</full_title>
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+          <year>2023</year>
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+        <issue>90</issue>
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+          <title>RelativisticDynamics.jl: Relativistic Spin-Orbital
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+            <given_name>Tom</given_name>
+            <surname>Kimpson</surname>
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+            <article_title>The Laser Interferometer Space Antenna:
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+Shoemaker, D., Key, J. S., Vallisneri, M., Eracleous, M., Schnittman,
+J., Kamai, B., Camp, J., … Wass, P. (2019). The Laser Interferometer
+Space Antenna: Unveiling the Millihertz Gravitational Wave Sky. Bulletin
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+https://arxiv.org/abs/1907.06482</unstructured_citation>
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+            <volume>6</volume>
+            <doi>10.1007/s10714-010-0939-y</doi>
+            <cYear>1937</cYear>
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+            <volume>34</volume>
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+Schwarzschild. arXiv e-Prints, arXiv:2203.11952.
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+            <doi>10.1103/PhysRevD.45.1840</doi>
+            <cYear>1992</cYear>
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