Exploring the Practical Applications of Giant Nonlinear Faraday Rotation in Iron-doped CdMnTe Semiconductor Materials

Exploring the Practical Applications of Giant Nonlinear Faraday Rotation in Iron-doped CdMnTe Semiconductor Materials
Author(s):
Aditi Sharma
Keywords:
Fabrication, GNFR, Iron-doped, Magneto-optical, Semiconductor.
Abstract
In iron-doped CdMnTe semiconductor materials, giant nonlinear Faraday rotation (GNFR) has become an exciting field of study with great potential for real-world applications in a variety of technical fields. The theoretical underpinnings, experimental proofs, and potential uses of GNFR in iron-doped CdMnTe semiconductors are all thoroughly examined in this study. Our goal is to unveil the transformational potential of GNFR for the advancement of optical devices and systems by clarifying the underlying mechanisms and investigating the distinctive optical features of these materials. To conclusion, the discovery of GNFR in iron-doped CdMnTe semiconductor materials signals the beginning of a new phase of advancement in magneto-optical materials research and offers a wide range of revolutionary applications in various technological fields.
Article Details
Unique Paper ID: 166077 Publication Volume & Issue: Volume 11, Issue 2 Page(s): 127 - 135
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