Light, Plasmonics and Particles 1st Edition

Capture the cutting edge of nano-optics with Light, Plasmonics and Particles 1st Edition by M. Pinar Menguc; Mathieu Francoeur — a rigorously crafted resource that illuminates the physics, modeling, and applications of plasmonic nanoparticles and light–matter interactions.

Start with a clear, accessible foundation in electromagnetic theory and progress to advanced topics such as localized surface plasmons, near-field optics, scattering by particles, and computational methods. Rich with real-world examples, the book bridges theory and experiment to explain how plasmonics drives breakthroughs in sensing, photovoltaics, thermal management, biomedical imaging, and metamaterials.

Authors M. Pinar Menguc and Mathieu Francoeur combine academic rigor and practical insight to guide readers through analytical techniques, numerical simulations, and interpretation of experimental data. Designed for graduate students, researchers, and engineers, this edition is equally valuable for those in academia and industry seeking a reliable reference for designing nanoscale photonic devices.

Why this title stands out:
– Comprehensive coverage of light–particle interactions and plasmonic phenomena
– Practical emphasis on modeling, measurement, and device-level applications
– Clear explanations that make complex concepts accessible without sacrificing depth

Whether you’re advancing research in photonics labs across universities or developing next-generation sensors and energy solutions in industry, this book offers a definitive roadmap. Add Light, Plasmonics and Particles 1st Edition to your professional library today and stay at the forefront of plasmonics and nanophotonics. Order now to deepen your expertise and accelerate your projects.

Note: eBooks do not include supplementary materials such as CDs, access codes, etc.