Foreword.
Introduction. References.
1 3D diffractive lenses to overcome the 3D Abby diffraction limit.
Introduction. Flat diffractive lens with superresolution. Subwavelength focusing with binary axicon. Zoned metamaterial lens. 3D diffractive conical lens. Results of investigations. References.
2 Subwavelength Focusing Properties of Diffractive Photonic Crystal Lens.
Introduction. Photonic Crystal diffractive lens. PhC diffractive lens with mode transformation. Metacuboid-Aided Photonic Jet. Effect of EM strong localization in photonic crystal. References.
3 Photonic Jets Formation By Non Spherical Axially And Spatially Asymmetric 3D Dielectric Particles.
Introduction. Physics of photonic jet formation in spherical-based diel
ectric particle. Cuboid dielectric particle. Backscattering enhancement evaluation. Multifrequency focusing and wide angular scanning of Terajets. Polarization properties of mesoscale regular hexahedron-aided terajet. The possibilities of curved photonic jet formation (photonic hook). Dielectric particle of arbitrary 3D shape. Photonic jet formation in mirror regime (flat focusing mirror). Photonic Jet Formation In The Scattering of Femtosecond Pulse By a Dielectric Spherical Particle. Some Potential Applications of PNJ. References.4 SPP diffractive lens as one of the basic devices for plasmonic information processing.
Introduction. In plane
SPP FZP. Modulation of surface plasmon polariton using a finite-size dielectric block. Innovative quasi-3D in-plane curvilinear SPP diffractive lens. References.
Conclusion.
"synopsis" may belong to another edition of this title.
Igor V. Minin received M.S. in Physics, Novosibirsk State University, Russia (1982) and the Ph.D. degree in radio-physics including quantum physics from the Leningrad Electro-Technical University, Russia, in 1986 and the D.Sc. degree in calculation experiment technology and microwave antennas from the Novosibirsk State Technical University, Russia, in 2004.
He worked as a Visiting Researcher at the DaimlerChrysler AG, Germany, Harbin Institute of Technology, China and Samsung Electronics, Korea. He has been an Invited Lecturer at several universities and institutions, co-chairman of several IEEE conferences and symposiums. He was with the Novosibirsk State Technical University, Russia from 2001 to 2006, as a Full Professor at the Department of Information Protection. Now Igor Minin is a full professor with the Siberian State Academy of Geodesy, Russia.
Minin I.V. is a Federal expert of the Russian Government committee in the scientific field (2014-to present).
Oleg V. Minin received M.S. in Physics, Novosibirsk State University, Russia (1982) and the Ph.D. degree in radio-physics including quantum physics from the Institute of Atmosphere Optics, Tomsk, Russia, in 1986 and the D.Sc. degree in optics and microwave antennas from the Novosibirsk State Technical University, Russia, in 2004. He worked as a Visiting Researcher at the DaimlerChrysler AG, Germany, Harbin Institut
e of Technology, China and Samsung Electronics, Korea. He has been an Invited Lecturer at several universities and institutions, co-chairman of several IEEE conferences and symposiums. He was with the Novosibirsk State Technical University, Russia from 2001 to 2006, as a Full Professor at the Department of Information Protection.In the field of diffractive optics of millimeter/THz wave Professors I.Minin and O.Minin achieved a number of pioneering results. They are the world leading authority on arbitrary 3D diffractive focusing elements. In particular, they for the first time observed 3D subwavelength resolution for diffractive optics with focal distances less wavelength.
Profs. Minin introduced 3D real time quasioptical “radio vision” system for detection of hidden objects in millimeter/THz waves based on frequency properties of 3D diffractive optics and provided the first observations of the real-time images with quality equal to optical."About this title" may belong to another edition of this title.