Plasmonics is an exciting and rapidly advancing field at the intersection of optics, material science, and nanotechnology. This book dives deep into the fascinating world of nanoscale plasmonic motors, revealing their immense potential to transform industries ranging from communications to medicine. By understanding the theoretical and practical principles of plasmonics, professionals, students, and enthusiasts alike can explore how this technology will shape the future.

Chapters Brief Overview:

1: Plasmonics: The foundational chapter introduces plasmonics, explaining its significance in modern technology.

2: Localized surface plasmon: This chapter delves into the localized surface plasmon resonance phenomenon, crucial for nanoscale applications.

3: Hybrid plasmonic waveguide: Explores how hybrid plasmonic waveguides combine optical and plasmonic properties for efficient energy transport.

4: Electromagnetic metasurface: Examines metasurfaces, which manipulate light at the nanoscale, playing a key role in plasmonics.

5: Ortwin Hess: Focuses on Ortwin Hess's groundbreaking contributions to the theoretical understanding of plasmonics.

6: Surface plasmon: A detailed analysis of surface plasmon waves and their role in enhancing material properties at the nanoscale.

7: Ravindra Kumar Sinha (physicist): Highlights the work of Ravindra Kumar Sinha in advancing plasmonic theories and applications.

8: Spoof surface plasmon: Investigates spoof plasmonics, a novel concept that mimics traditional plasmonic effects in engineered materials.

9: Waveguide (optics): Describes optical waveguides and their integration with plasmonic components for improved signal transmission.

10: Jaime Gómez Rivas: Explores the contributions of Jaime Gómez Rivas in advancing plasmonic research, particularly in nanophotonics.

11: Photonic molecule: This chapter covers the concept of photonic molecules and their relevance to plasmonic interactions.

12: Extraordinary optical transmission: Discusses the phenomenon of extraordinary optical transmission and its implications for future plasmonic devices.

13: Plasmon: Provides an indepth exploration of plasmon theory, central to the understanding of nanoscale light manipulation.

14: Nanolaser: Looks at the development and potential of nanolasers, a critical component of future plasmonic applications.

15: Plasmonic metamaterial: Explains plasmonic metamaterials, engineered to interact with light in ways that natural materials cannot.

16: Plasmonic nanolithography: Covers the techniques of plasmonic nanolithography, enabling precise control over material fabrication.

17: Plasmonic lens: Describes how plasmonic lenses can achieve unprecedented resolution and focusing capabilities.

18: Graphene plasmonics: Explores the role of graphene in plasmonics, focusing on its unique properties and applications.

19: Spaser: Examines spasers, the plasmonic counterparts to lasers, capable of amplifying plasmonic signals.

20: Nanophotonics: Explores the interface between nanotechnology and photonics, with an emphasis on plasmonic devices.

21: Surface plasmon polariton: Concludes with a study of surface plasmon polaritons, the essential coupling of light and electrons in plasmonics.

This book is indispensable for professionals, graduate students, and hobbyists eager to understand the cuttingedge applications of plasmonics in the realm of nanoscale motors. By comprehensively covering both theoretical and practical aspects, it delivers a robust foundation for exploring how nanoscale plasmonic devices can revolutionize fields like communication, sensing, and energy efficiency.