Recent advances in the electromagnetic interactions of Dirac and Weyl particles

• URL: http://arxiv.org/abs/2504.00840v1
• Date: Tue, 01 Apr 2025 14:28:19 GMT
• Title: Recent advances in the electromagnetic interactions of Dirac and Weyl particles
• Authors: Georgios N. Tsigaridas, Aristides I. Kechriniotis, Christos A. Tsonos, Konstantinos K. Delibasis,
• Abstract summary: We show that Dirac particles can occupy the same quantum state under an extensive range of electromagnetic 4-potentials and fields.<n>Weyl particles can form localized states even in the absence of external electromagnetic fields.<n>We propose an innovative device that leverages Weyl fermions to regulate information flow at unprecedented rates of up to 100 petabits per second.
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• License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
• Abstract: In this article, we present a comprehensive review of recent advancements in the study of the electromagnetic interactions of Dirac and Weyl particles, highlighting novel and significant findings. Specifically, we demonstrate that all Weyl particles, and under certain conditions Dirac particles, can occupy the same quantum state under an extensive range of electromagnetic 4-potentials and fields. These fields, which are infinite in number, have been explicitly derived and analysed. Additionally, we establish that Weyl particles can form localized states even in the absence of external electromagnetic fields. Moreover, we show that their localization can be precisely controlled through the application of simple electric fields, offering a tuneable mechanism for manipulating these particles. Building on these insights, we propose an innovative device that leverages Weyl fermions to regulate information flow at unprecedented rates of up to 100 petabits per second. This finding has significant implications for the development of next-generation electronic and quantum information technologies, as it presents a fundamentally new approach to high-speed data processing and transmission.

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