A Design of a Material Assembly in Space-Time Generating and Storing Energy

Authors

Mihhail Berezovski, Embry-Riddle Aeronautical UniversityFollow
Stan Elektrov, Worcester Polytechnic Institute
Konstantin Lurie, Worcester Polytechnic Institute

Submitting Campus

Daytona Beach

Department

Mathematics

Document Type

Book Chapter

Publication/Presentation Date

2019

Abstract/Description

The paper introduces a theoretical background of the mechanism of electromagnetic energy and power accumulation and its focusing in narrow pulses travelling along a transmission line with material parameters variable in 1D-space and time. This mechanism may be implemented due to a special material geometry- a distribution of two different dielectrics in a spatio-temporal checkerboard. We concentrate on the practically reasonable means to bring this mechanism into action in a device that may work both as energy generator and energy storage. The basic ideas discussed below appear to be fairly general; we have chosen their electromagnetic implementation as an excellent framework for the entire concept.

Publication Title

Applied Wave Mathematics II. Mathematics of Planet Earth

DOI

https://doi.org/10.1007/978-3-030-29951-4_13

Publisher

Springer, Cham.

Scholarly Commons Citation

Berezovski, M., Elektrov, S., & Lurie, K. (2019). A Design of a Material Assembly in Space-Time Generating and Storing Energy. Applied Wave Mathematics II. Mathematics of Planet Earth, 6(). https://doi.org/10.1007/978-3-030-29951-4_13