▎ 摘　　要

NOVELTY - A terahertz source emitting material comprises 60-80 pts. wt. quartz powder, 8-35 pts. wt. graphite powder, 2-4 pts. wt. tin powder, 5-10 pts. wt. aluminum oxide, and 0.3-0.8 pts. wt. magnesium oxide. The particle size of each component of the base material is 10-100 microm. USE - Terahertz source emitting material used for forming terahertz emitter for terahertz bed article (all claimed). ADVANTAGE - The terahertz source emitting material does not require any energizing device. The emitted terahertz quantum waves generate resonance with macromolecules of human body, thereby effectively increasing the temperature and activity of human tissues. DETAILED DESCRIPTION - INDEPENDENT CLAIMS are included for the following: (1) terahertz source emitter, which is prepared by (i) preparing the base material and mixing uniformly, (ii) sintering the mixed base material at a sintering temperature of 1500-2000degrees Celsius, and continuously sintering for 28-32 hours in an oxygen-free state to obtain a sintered component, (iii) after sintering, maintaining the temperature for 1-2 hours, cooling the sintered component to 30-50degrees Celsius, and grinding the cooled sintered component into a powder of 150 mesh to 350 mesh to obtain terahertz non-interference wave emitting powder, (iv) fixing the prepared terahertz non-interference emitting powder on the carrier, (v) placing the carrier on the terahertz wave irradiation device for irradiation processing, in which the terahertz wave irradiation device emits electromagnetic waves in the range of 0.3-10 THZ, for irradiation time of 30-120 minutes, and making the carrier into a resonance component of the terahertz wave; and (2) terahertz bed article, which comprises at least a terahertz emitting layer and a reflective layer from top to bottom. The terahertz emitting layer comprises the terahertz emitter and carrier which is a fiber fabric. The reflective layer is a fiber fabric containing semiconductor materials.