Tadashi Shinmura scite author profile

We have developed a simulation for predicting reactive ion etching (RIE) topography, which is a combination of plasma simulation, the gas reaction model, the sheath model and the surface reaction model. The simulation is applied to the SiO 2 etching process of a high-aspect-ratio contact hole using C 5 F 8 gas. A capacitively coupled plasma (CCP) reactor of an 8-in. wafer was used in the etching experiments. The baseline conditions are RF power of 1500 W and gas pressure of 4.0 Pa in a gas mixture of Ar, O 2 and C 5 F 8 . The plasma simulation reproduces the tendency that CF 2 radical density increases rapidly and the electron density decreases gradually with increasing gas flow rate of C 5 F 8 . In the RIE topography simulation, the etching profiles such as bowing and taper shape at the bottom are reproduced in deep holes with aspect ratios greater than 19. Moreover, the etching profile, the dependence of the etch depth on the etching time, and the bottom diameter can be predicted by this simulation.

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Topography Simulation of Reactive Ion Etching Combined with Plasma Simulation, Sheath Model, and Surface Reaction Model

Takagi

Iyanagi

Onoue

et al. 2002

Jpn. J. Appl. Phys.

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Study on Surface Modification of Indium Tin Oxide and Resist Surfaces Using CF₄/O₂ Plasma for Manufacturing Organic Light-Emitting Diodes by Inkjet Printing

Ikagawa

Tohno

Shinmura

et al. 2008

jjap

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The paper describes experiments on a metal ball rolled along parallel metal rails. An electrical force is developed on the ball in the direction of movement by passing current through it from one rail to the other. Contrary to the electromagnetic theory of the ball-bearing motor, the electrical force on a brass ball is of the same order as that on a steel ball. The results are discussed in terms of a torque exerted in the contact region.

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Topography simulations for contact formation involving reactive ion etching, sputtering and chemical vapor deposition

Takagi

Onoue

Iyanagi

et al. 2005

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Articles you may be interested inInfinitely high etch selectivity during CH 2 F 2 / H 2 dual-frequency capacitively coupled plasma etching of silicon nitride to chemical vapor-deposited a -C J. Vac. Sci. Technol. A 28, 755 (2010); 10.1116/1.3430551 TiSiN films produced by chemical vapor deposition as diffusion barriers for Cu metallization Microscopic mapping of specific contact resistances and long-term reliability tests on 4H-silicon carbide using sputtered titanium tungsten contacts for high temperature device applications With the shrinking design rule of semiconductor devices, the aspect ratios of contact holes that connect transistor electrodes to wirings have exceeded 10 at a design rule less than 0.15 m. The contact is formed through sequential processes of reactive ion etching ͑RIE͒, TiN sputtering, and tungsten chemical vapor deposition ͑W-CVD͒. In such a formation process, a contact hole with a large bottom diameter is required to reduce contact resistance. We developed a contact simulation method for optimizing contact formation. This contact simulation involves sequential simulations of RIE, TiN sputtering, and W-CVD processes, which adopt a particle model based on the Monte Carlo method. These topography simulations were calibrated using experimental results, and each simulation was combined in order to calculate these sequential simulations. We calculated the dependences of etching and W-CVD filling profiles on contact hole depth. The simulation profiles of etching and W-CVD filling were in agreement with the experimental results. The sequential simulations showed that W disconnection occurs at over 2.5 m contact depth with a aspect ratio of 19.2 and the contact resistance increases markedly.

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