The permittivity, permeability, and tangent loss of high magneto-optical mediums are controlled and modified in this manuscript. The paramagnetism and diamagnetism are controlled by the changing of strength and phases of the coupled driving fields. In addition, the study of the electric and magnetic tangent loss involves varying the phases of the control fields. The highest positive as well as negative group index is calculated to be ng=±2×107. The propagation of light in the medium corresponds to superluminal and subluminal characteristics by the positive and negative group indices. The maximum envelope of the wave (vg) is investigated to be vg=±15m/s. Reflection and transmission pulse intensity are also studied in the corresponding medium. The reflected and transmitted pulses show bright soliton behavior with time and space variation. The reflection and transmission pulse intensity are soliton-like behaviors around the origin of space and time coordinates. Dirac delta function types, pulses, shapes of reflection, and transmission are investigated, having small shifts and spread along space coordinates. The results demonstrate significant applications in optical communications, soliton radar technology, imaging, and time cloak technologies. The soliton-like behavior enhances target recognition and signal clarity, which benefits radar systems. Solitons in optical communication prevent signal loss for longer transmissions with more capacity. Stable soliton propagation reduces blur in imaging, improving image quality and diagnostic precision.

中文翻译：

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通过高磁光介质的反射和透射孤子


本手稿对高磁光介质的介电常数、磁导率和切线损耗进行了控制和修改。顺磁性和抗磁性由耦合驱动场的强度和相位变化控制。此外，电和磁正切损耗的研究涉及改变控制场的相位。计算出最高的正组和负组指数为 ng=±2×107。光在介质中的传播与超光速和亚光速特性相对应，由正和负群指数组成。波的最大包络 （vg） 被研究为 vg=±15m/s。还研究了相应介质中的反射和传输脉冲强度。反射和发射脉冲随时间和空间变化显示明亮的孤子行为。反射和传输脉冲强度是围绕空间和时间坐标原点的孤子行为。研究了狄拉克 delta 函数类型、脉冲、反射形状和透射，它们具有小的偏移并沿空间坐标传播。结果表明，这些技术在光通信、孤子雷达技术、成像和时间隐身技术方面具有重要应用。孤子状行为增强了目标识别和信号清晰度，这对雷达系统有益。光通信中的孤子可防止信号丢失，从而以更大的容量进行更长的传输。稳定的孤子传播减少了成像中的模糊，提高了图像质量和诊断精度。