Recent advances in metamaterial klystrons

Abstract: As a kind of artificially structured media, electromagnetic metamaterials (MTMs) have exotic electromagnetic properties that are not found or difficult to achieve in natural materials. This class of metal/dielectric-structured artificial media has attracted great attention during the past two decades and made important breakthroughs. A variety of passive and active devices based on MTMs have been developed rapidly. Especially MTM klystrons, which show very remarkable advantages, including miniaturization, high… Show more

“…Metamaterials, as an artificially engineered subwavelength structures, have become attractive to researchers in the field of microwaves and optics in view of their unusual electromagnetic (EM) properties [5], [6], [7], [8], [9], [10], [11], [12]. As a unit cell of metamaterials, the all-metal complementary electric split ring resonator (CeSRR) leads to a new developing direction of vacuum electron devices.…”

Experimental Demonstration of Compact S-Band MW-Level Metamaterial-Inspired Klystron

“…Metamaterials, as an artificially engineered subwavelength structures, have become attractive to researchers in the field of microwaves and optics in view of their unusual electromagnetic (EM) properties [5], [6], [7], [8], [9], [10], [11], [12]. As a unit cell of metamaterials, the all-metal complementary electric split ring resonator (CeSRR) leads to a new developing direction of vacuum electron devices.…”

Experimental Demonstration of Compact S-Band MW-Level Metamaterial-Inspired Klystron

Conclusions and Future Directions

Vacuum Electron Devices Based on Transition Radiation