▎ 摘　　要

NOVELTY - The converter has two rectangular gold strips and a metal square ring overlapped at a cross center. The rectangular gold strip is formed as a cross-shaped structure. A surface of an insulating substrate and a metal ultra surface are filled with structured graphene. A metal-graphene hybrid ultrasurface structure is formed on a silicon substrate. The metal ultra surface is formed with the surface graphene by using gold. An anti-reflection covering layer is arranged in a surface layer of the metal-graphene hybrid ultrasurface structure. The anti-reflection covering layer is made of silicon dioxide material. An electrode is arranged on a surface of the anti-reflection covering layer. USE - Metal-graphene hybrid super-surface structure continuous medium bound state converter. ADVANTAGE - The converter simultaneously displays two types of continuous domain bound states, thus realizing dynamic switching capability from the continuous domain bound state to a continuous domain quasi-binding state, ensures dynamic transmission in range by adjusting a Fermi level of the structured graphene, increases the anti-reflection covering layer so as to improve dynamic conversion capability of a metal-graphene hybrid surface and realizes symmetry change of the metal-graphene hybrid ultrasurface structure when the Fermi level of the structured graphene converted into a metalloid from semiconductor type is increased, so that freely switches a continuous medium bound state converter structure of the metal-graphene hybrid ultrasurface structure between the continuous domain bound state and the continuous domain quasi-binding state. DETAILED DESCRIPTION - An INDEPENDENT CLAIM is also included for a metal-graphene hybrid super-surface structure continuous medium bound state converter manufacturing method. DESCRIPTION OF DRAWING(S) - The drawing shows a schematic diagram of the metal-graphene hybrid super-surface structure continuous medium bound state converter.