▎ 摘　　要

NOVELTY - The device has a diamond substrate layer whose upper side is formed with a graphene layer. An upper side of the graphene layer is formed with a superconducting thin film layer. A titanium film layer is formed on the graphene layer and the superconducting thin film layer. The superconducting thin film layer is formed with a phonon superconducting thin film layer and an electronic superconductive film layer. The phonon superconducting thin film layer is made of gold or palladium material. The electronic superconducting thin film layer is made of titanium material. USE - Carbon electronic transition-edge sensor (TES) superconducting device. ADVANTAGE - The device has high thermal coupling coefficient, and effectively reduces recovering time and increases response speed. DETAILED DESCRIPTION - An INDEPENDENT CLAIM is also included for a carbon electronic transition-edge sensor superconducting device manufacturing method. DESCRIPTION OF DRAWING(S) - The drawing shows a flow diagram illustrating a carbon electronic TES superconducting device manufacturing method. '(Drawing includes non-English language text)'