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The Complementary Derivatives Method for High-Accuracy Finite-Difference Time-Domain Simulations

机译：高精度有限差分时域仿真的互补导数方法

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Non-uniform grid in FDTD-based methods, which is typically used to resolve fine structures or improve the accuracy of the electric or magnetic fields with large gradients within a limited volume, can reduce the computational domain and therefore lead to a reduction of the computational cost. However, for high-accuracy problems, such as resonators, or microwave integrated circuits, using different grid size increases the truncation error at the boundary of domains having different grid size. To address this problem, in this work, we introduce the complementary derivatives method (CDM). Theoretical discussion and numerical results are presented to show that the CDM can maintain second-order accuracy throughout the computational domain

机译：基于FDTD的方法中的非均匀网格通常用于解析精细结构或提高有限体积内具有大梯度的电场或磁场的精度，它会减少计算范围，从而导致计算量减少成本。但是，对于诸如谐振器或微波集成电路之类的高精度问题，使用不同的网格大小会增加具有不同网格大小的域边界处的截断误差。为了解决这个问题，在这项工作中，我们介绍了互补导数方法（CDM）。理论讨论和数值结果表明，CDM可以在整个计算域中保持二阶精度。

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《》|2006年|2775-2778|共4页
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Kermani; M.H.; Ramahi; O.M.;
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cavity resonators; electric fields; electromagnetic fields; finite difference time-domain analysis; magnetic fields; complementary derivatives method; electric fields; high-accuracy finite-difference time-domain simulations; magnetic fields;

机译：空腔谐振器;电场;电磁场;时域有限差分分析;磁场;互补导数法;电场;高精度时域有限差分模拟;磁场;

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专利

1. The complementary operators method applied to acoustic finite-difference time-domain simulations [J] . John B. Schneider, Omar M. Ramahi The Journal of the Acoustical Society of America . 1998,第2期

机译：互补算子方法在声学有限差分时域模拟中的应用
2. Numerical solution of the time-domain Maxwell equations using high-accuracy finite-difference methods [J] . Jurgens HM., Zingg DW. SIAM Journal on Scientific Computing . 2001,第5期

机译：高精度时域有限差分法求解时域麦克斯韦方程组
3. Three-dimensional dispersive hybrid implicit-explicit finite-difference time-domain method for simulations of graphene [J] . Chen Juan, Wang Jianguo Computer physics communications . 2016,第Null期

机译：三维色散混合隐式显式时域有限域模拟石墨烯
4. The Complementary Derivatives Method for High-Accuracy Finite-Difference Time-Domain Simulations [C] . Mohammad H. Kermani, Omar M. Ramahi IEEE Antennas and Propagation Society International Symposium . 2006

机译：用于高精度有限差分时间域模拟的互补衍生物方法
5. Methods for improving finite-difference time-domain (FDTD) simulations of electromagnetic problems [D] . Kim, Gyusub 2011

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6. Numerical Analysis of H-PDLC Using the Split-Field Finite-Difference Time-Domain Method [O] . Sergio Bleda, Jorge Francés, Sergi Gallego, 2018

机译：H-PDLC的裂域有限差分时域法数值分析
7. The Complementary Operators Method Applied to Acoustic Finite-Difference Time-Domain Simulations [O] . John Schneider, Omar M. Ramahi 1998

机译：用于声学有限差分时域模拟的互补算子方法
8. Incorporation of Atmospheric Flow Fields and Ground Interactions into Acoustic Finite-Difference, Time-Domain Simulations [R] . Wilson, D. K. , Marlin, D. H. , Collier, S. L. , 2004

机译：将大气流场和地面相互作用结合到声学有限差分，时域模拟中

The Complementary Derivatives Method for High-Accuracy Finite-Difference Time-Domain Simulations

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