New Process Development for Planar-Type CIC Tunneling Diodes
Electron Device Letters, IEEE(2010)
摘要
A planar-type conductor-insulator-conductor tunneling diode is developed using a boiling water process for surface oxidation. First, microsized bow-tie patterns are transferred on a doped polysilicon layer using e-beam lithography. After reactive ion etching, the polysilicon bow-tie pattern has a very narrow knot between two triangles. Using a buffered oxide etchant (BOE) solution, hydrogen silsesquioxane patterns and native oxide layer are etched. The knot is oxidized by a boiling water oxidation process. By repeating the BOE etch and oxidation, the bow-tie patterns are transformed into tunneling diodes with a very thin oxide barrier separating two polysilicon conductors. We show that the resulting structures follow the Simmons tunneling current-voltage relationship after boiling. Moreover, a high sensitivity of 31 V-1 is achieved at a bias voltage of 80 mV.
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关键词
reactive ion etching,conductor-insulator-conductor,tunneling diode,planar-type cic tunneling diodes,optical antenna,buffered oxide etchant solution,oxidation,sputter etching,surface oxidation,e-beam lithography,microsized bow-tie patterns,voltage 80 mv,hydrogen silsesquioxane patterns,insulators,native oxide layer,tunnel diodes,bow-tie antenna,electron beam lithography,boiling,boiling water oxidation process,surface plasmon,doped polysilicon layer,metal–insulator–metal (mim) diode,surface plasmon resonance (spr),etching,plasmons,surface plasmon resonance,diodes,e beam lithography,process development,lithography,tunneling,writing
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