Research Area

Computational electromagnetics and quantum simulation

Selected publications and resources connected to modeling, circuit analogies, simulation workflows, quantum-computing education, and reproducible computational research.

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Relevant Publications

This curated list highlights publications most closely connected to this research area. The full publication record is maintained on the main Publications page and Google Scholar.

D. Trivedi, A. Madanayake, and A. Krasnok, “Anomalies in Light Scattering: A Circuit-Model Approach,”Physical Review Applied 22(3), 034061 (2024).doi:10.1103/PhysRevApplied.22.034061
D. Trivedi, A. Madanayake, and A. Krasnok, “Circuit Theory for Anomalies in Light Scattering,”IEEE RAPID (2024).doi:10.1109/RAPID60772.2024.10647000
A. Krasnok, “From False Roots to Phasors: Negative and Complex Numbers in Mathematics, Physics, and Electrical Engineering,”arXiv:2603.21445 (2026).doi:10.48550/arXiv.2603.21445
A. Krasnok, “Physics paradoxes as stress tests from tea leaves to bell tests,”The European Physical Journal Plus 141(3), 273 (2026).doi:10.1140/epjp/s13360-026-07519-6
L. Niaz and A. Krasnok, “Quantum Leap: Observing Antiferromagnetic Transition in a 3D Fermionic Hubbard Model with Ultracold Atoms,”Advanced Photonics 6(6), 060503 (2024).doi:10.1117/1.AP.6.6.060503
A. Krasnok, “Introduction to Quantum Computing and Sensing for Electrical Engineers: A Hands-On Guide,”Book manuscript in preparation for Springer Nature.