▎ 摘　　要

NOVELTY - The UV sensor has a UV sensor (3) comprising a first single-mode optical fiber, a multi-mode single ball micro optical fiber and zinc oxide (ZnO)/graphene rod-shaped graphene-sensitive material. A second single-mode optical fiber is connected with the multi-mode single ball micro optical fiber. An optical fiber circulator (2) is connected with the UV sensor via a single mode fiber. The optical fiber circulator is connected with a spectrograph (4) through the single mode optical fiber. Fiber fusion connection is formed in the single-mode fiber. Output center wavelength of an amplified spontaneous emission (ASE) light source (1) is 1550nm. USE - Zinc oxide/graphene rod-shaped graphene single ball nano-structure UV sensor. ADVANTAGE - The UV sensor combines sensitive material and structure combining of interference type optical fiber to realize sensitivity, strong stability, low cost and performance. The corrosion resistance, temperature resistance and strong anti-electromagnetic interference capacity are improved. The UV sensor satisfies user requirements. DETAILED DESCRIPTION - An INDEPENDENT CLAIM is included for a Zinc oxide/graphene rod-shaped graphene single ball nano-structure UV sensor manufacturing method. DESCRIPTION OF DRAWING(S) - The drawing shows a schematic view of a zinc oxide/graphene rod-shaped graphene single ball nano-structure UV sensor. ASE light source (1) Optical fiber circulator (2) UV sensor (3) Spectrograph (4)