An efficient method to mount a coupled silica microsphere and tapered fiber system is proposed and demonstrated experimentally. For the purpose of optomechanical studies, high-quality-factor optical(Q_o~ 10~8) and me...An efficient method to mount a coupled silica microsphere and tapered fiber system is proposed and demonstrated experimentally. For the purpose of optomechanical studies, high-quality-factor optical(Q_o~ 10~8) and mechanical modes(Q_m~ 0.87 × 10~4) are maintained after the mounting process. For the mounted microsphere, the coupling system is more stable and compact and, thus, is beneficial for future studies and applications based on optomechanical interactions. Especially, the packaged optomechanical system, which is tested in a vacuum chamber,paves the way toward quantum optomechanics research in cryostat.展开更多
基金supported by the Strategic Priority Research Program(B) of the Chinese Academy of Sciences (grant no. XDB01030200)National Basic Research Program of China (grant nos. 2011CB921200 and 2011CBA00200)+2 种基金the National Natural Science Foundation of China (grant no. 61308079)Anhui Provincial Natural Science Foundation (grant no. 1508085QA08)the Fundamental Research Funds for the Central Universities
文摘An efficient method to mount a coupled silica microsphere and tapered fiber system is proposed and demonstrated experimentally. For the purpose of optomechanical studies, high-quality-factor optical(Q_o~ 10~8) and mechanical modes(Q_m~ 0.87 × 10~4) are maintained after the mounting process. For the mounted microsphere, the coupling system is more stable and compact and, thus, is beneficial for future studies and applications based on optomechanical interactions. Especially, the packaged optomechanical system, which is tested in a vacuum chamber,paves the way toward quantum optomechanics research in cryostat.
