Numerical simulation of the electron capture process in a magnetar interior

Z. F. Gao; N. Wang; J. P. Yuan; L. Jiang; D. L. Song

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Numerical simulation of the electron capture process in a magnetar interior

机译：电磁内部电子俘获过程的数值模拟

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In a superhigh magnetic field, direct Urca reactions can proceed for an arbitrary proton concentration. Since only the electrons with high energy E (E>Q, Q is the threshold energy of inverse β-decay) at large Landau levels can be captured, we introduce the Landau level effect coefficient q and the effective electron capture rate Γ_eff. By using Γ_eff, the values of L _X and L _ν are calculated, where L _X and L _ν are the average neutrino luminosity of AXPs and the average X-ray luminosity of AXPs L _X, respectively. The complete process of electron capture inside a magnetar is simulated numerically.

机译：在超高磁场中，直接的Urca反应可以在任意的质子浓度下进行。由于在大朗道能级上只能捕获具有高能量E（E> Q，Q是反β衰变的阈值能量）的电子，因此我们引入了朗道能级效应系数q和有效电子捕获率Γ_{eff 。通过使用Γ_{eff ，计算L _{X 和L _{ν的值，其中L _{X 和L < sub>ν分别是AXPs的平均中微子光度和AXPs L _{X 的平均X射线光度。数值模拟了磁星内部电子捕获的完整过程。}}}}}}

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《Astrophysics and Space Science》 |2011年第1期|p.129-138|共10页
作者
Z. F. Gao; N. Wang; J. P. Yuan; L. Jiang; D. L. Song;
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正文语种 eng
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Magnetar – Superhigh magnetic fields – Electron capture rate;

机译：电磁–超高磁场–电子捕获率;

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Numerical simulation of the electron capture process in a magnetar interior

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