▎ 摘　　要

NOVELTY - The emitter (100) has an insulator (104) bonded to substrate (102). A graphene layer (106) is bonded to insulator. The first electrical contact (108) is bonded over a first portion (112) of graphene layer and second electrical contact (110) is bonded over a second portion (114) of graphene layer. The graphene layer electrically couples first electrical contact and second electrical contact. The graphene layer receives pulsed input voltage between first and second electrical contacts and radiates radio frequency (RF) energy. The emitter is solid state nanoscale emitter. USE - Emitter used in devices such as ultra-high speed computers, high precision scanners, radars, radio frequency detectors, and applications configured to record images. ADVANTAGE - The variety of applications and devices benefits from the use of precise and stable high frequency emitters. The emitter is capable of generating a very stable and highly output signal. DETAILED DESCRIPTION - An INDEPENDENT CLAIM is included for an emitter system. DESCRIPTION OF DRAWING(S) - The drawings show a perspective view of a solid state nanoscale emitter and cross-sectional view, perpendicular to the cut plane of a solid state nanoscale emitter, respectively. Emitter (100) Substrate (102) Insulator (104) Graphene layer (106) First electrical contact (108) Second electrical contact (110) First portion (112) Second portion (114)