A structure is talked about for engrossing occurrence radiation, either electromagnetic (EM) or sound. Such a surface structure is required, for instance, in a profoundly delicate high-recurrencegravitational wave or HFGW identifier, for example, the Li-Baker. The multi-layer safeguard, whichis talked about, is built with metamaterial [MM] layer or layers on top. This MM is arranged for a particular EM or sound radiation recurrence band, which ingests episode EM or on the other hand sound radiation without reflection. Underneath these top MM layers is a substrate of traditional EM-radiation engrossing or acoustical retaining intelligent material, for example, a variety of pyramidal froth safeguards. Occurrence radiation is somewhat consumed by the MM layer or layers, and afterward it is more consumed by the lower engrossing and reflecting substrate. The remaining reflected radiation is considerably additionally consumed by the MM layers on its ìway outî so basically the entirety of the occurrence radiation is assimilated ñ an almost impeccable dark body safeguard. In a HFGW finder a substrate, for example, froth safeguards, may outgas into a high vacuum and lessen the ability of the vacuum-delivering hardware, notwithstanding, the layers over this most reduced substrate will seal the engrossing and reflecting substrate from any outside vacuum. The layers additionally serve to seal the engrossing material against air or water stream past the surfaces of airplane, watercraft or submarines. Different applications for such a numerous level radiation safeguard incorporate secrecy airplane, rockets and submarines. The purpose of this paper is to present and discuss a novel concept in the absorption of radiation, both electromagnetic and sound, by using a composite absorbing surface structure. There exist a number of applications for a highly efficient absorber of electromagnetic orsound radiation especially in the microwave or ultrasonic fre- quency bands. The advent of metamaterials [MMs] has prompted the consideration or objective for creating per- fectly ìblackî or totally absorbent material or structure. Such an objective, although not totally achievable, can be closely approximated. Electromagnetic metamaterials are artificially structured materials that are designed to inter- act with and control electromagnetic waves. Acoustic or sound metamaterials are artificially structured materials that are designed to interact with and control sound waves. One especially significant application of electromagneticmicrowave-absorbing technology isfor the Li-Baker high- frequency gravitational wave (HFGW) detector In this detector a small number of microwave photons in the presence of an intense beam of microwave photons need to be detected. Such a beam may also produce scattered or diffracted photons that must be efficiently absorbed. A structure or method of absorption is discussed in Baker, and Woods, et al. This absorption method also relates to the construction of an anechoic chamber having highly absorbent walls. Thus only a negligibly small number of microwave photons or sound waves are re- flected from the chamberís walls. The upper layers also prevent evaporation, sublimation or out gassing of any warm (possibly due to radiation absorption heating) material in a substrate adjacent to the chamber walls. Other applications involve stealth aircraft, missiles and subma- rine craft and various acoustical systems.
Published Date: 2020-10-13; Received Date: 2020-10-01