Mechanics Mechanisms And Modeling Of The Chemical Mechanical Polishing Process PDF Download
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| Author | : Jiun-Yu Lai |
| Publisher | : |
| Total Pages | : 616 |
| Release | : 2001 |
| Genre | : |
| ISBN | : |
Download Mechanics, Mechanisms, and Modeling of the Chemical Mechanical Polishing Process Book in PDF, ePub and Kindle
(Cont.) Additionally, contact mechanics models, which relate the pressure distribution to the pattern geometry and pad elastic properties, explain the die-scale variation of material removal rate (MRR) on pattern geometry. The pad displacement into low features of submicron lines is less than 0.1 nm. Hence the applied load is only carried by the high features, and the pressure on high features increases with the area fraction of interconnects. Experiments study the effects of pattern geometry on the rates of pattern planarization, oxide overpolishing and Cu dishing. It was observed that Cu dishing of submicron features is less than 20 nm and contributes less to surface non-uniformity than does oxide overpolishing. Finally, a novel in situ detection technique, based on the change of the reflectance of the patterned surface at different polishing stages, is developed to detect the process endpoint and minimize overpolishing. Models that employ light scattering theory and statistical treatment correlate the sampled reflectance with the surface topography and Cu area fraction for detecting the process regime and endpoint. The experimental results agree well with the endpoint detection schemes predicted by the models.
| Author | : Yongsik Moon |
| Publisher | : |
| Total Pages | : 70 |
| Release | : 1997 |
| Genre | : Grinding and polishing |
| ISBN | : |
Download Investigation of Material Removal Mechanism and Process Modeling of Chemical Mechanical Polishing (CMP) Book in PDF, ePub and Kindle
| Author | : Guanghui Fu |
| Publisher | : |
| Total Pages | : 258 |
| Release | : 2002 |
| Genre | : |
| ISBN | : |
Download Modeling of Chemical Mechanical Polishing at Multiple Scales Book in PDF, ePub and Kindle
Chemical Mechanical Polishing (CMP) has grown rapidly during the past decade as part of mainstream processing method in submicron integrated circuit manufacturing because of its global or near-global planarization ability. However, CMP process is influenced by many factors and is poorly understood. It makes process control and optimization very difficult. This study focuses on the modeling and simulation to facilitate better understanding and better control of the CMP process. The thesis outlines the modeling of CMP process in three scales: particle scale for material removal mechanism, wafer scale for within wafer nonuniformity issues and feature scale for dishing and erosion in metal CMP. At the particle scale, material removal mechanism is assumed to be due to local plastic deformation of wafer surface material. A mechanistic material removal model is derived that delineates the influence of abrasive (shape, size and concentration), pad (rigidity) and process parameters (pressure and relative velocity) on the material removal rate (MRR). Wafer scale model is based on the solution of indentation of elastic half space by a rigid frictionless polynomial punch. The load-displacement relationship is also derived and the conditions for unbonded or bonded contact are obtained from the boundary condition at punch edge. The corresponding viscoelastic solution is obtained through Laplace transform and elastic-viscoelastic analogy. The elastic solution is used to explain the edge effect. Viscoelastic solution is used to explain MRR decay for unconditioned pad. The relationships among wafer-pad interface pressure, wafer shape and wafer loading condition are also investigated. Feature scale model is based on Preston's relationship for material removal and constant downforce. It shows dishing is governed by polishing conditions (overpolishing, pressure, velocity), slurry (selectivity), pad characteristics (pad stiffness and bending ability), as well as wafer surface feature topography (pattern density, linewidth and pitch). This model is also valid for step height reduction when the same surface material is polished. Due to process complexity and coupling of various parameters, more fundamental research needs to be carried out and carefully designed experiments need to be done to verify the models. Recommendations for future research work is presented at the end.
| Author | : Chih-Chieh Hu |
| Publisher | : |
| Total Pages | : 178 |
| Release | : 2004 |
| Genre | : Metals |
| ISBN | : |
Download Modeling of Chemical Mechanical Polishing Process Book in PDF, ePub and Kindle
| Author | : Yongsik Moon |
| Publisher | : |
| Total Pages | : 60 |
| Release | : 1997 |
| Genre | : Friction |
| ISBN | : |
Download Process Modeling of Chemical Mechanical Polishing (CMP) Based Upon the Relationship Between Preston's Coefficient and Friction Coefficient Book in PDF, ePub and Kindle
| Author | : Andrew Kunung Chang |
| Publisher | : |
| Total Pages | : 382 |
| Release | : 2002 |
| Genre | : |
| ISBN | : |
Download Investigation of Mechanical Aspects of Chemical Mechanical Polishing Book in PDF, ePub and Kindle
| Author | : Dedy Ng |
| Publisher | : |
| Total Pages | : |
| Release | : 2010 |
| Genre | : |
| ISBN | : |
Download Interfacial Forces in Chemical-mechanical Polishing (CMP) Book in PDF, ePub and Kindle
The demand for microelectronic device miniaturization requires new concepts and technology improvement in the integrated circuits fabrication. In last two decades, Chemical-Mechanical Polishing (CMP) has emerged as the process of choice for planarization. The process takes place at the interface of a substrate, a polishing pad, and an abrasive containing slurry. This synergetic process involves several forces in multi-length scales and multi-mechanisms. This research contributes fundamental understanding of surface and interface sciences of microelectronic materials with three major objectives. In order to extend the industrial impact of this research, the chemical-mechanical polishing (CMP) is used as a model system for this study. The first objective of this research is to investigate the interfacial forces in the CMP system. For the first time, the interfacial forces are discussed systematically and comparatively so that key forces in CMP can be pinpointed. The second objective of this research is to understand the basic principles of lubrication, i.e., fluid drag force that can be used to monitor, evaluate, and optimize CMP processes. New parameters were introduced to include the change of material properties during CMP. Using the experimental results, a new equation was developed to understand the principle of lubrication behind the CMP. The third objective is to study the synergy of those interfacial forces with electrochemistry. The electro-chemical-mechanical polishing (ECMP) of copper was studied. Experiments were conducted on the tribometer in combination with a potentiostat. Friction coefficient was used to monitor the polishing process and correlated with the wear behavior of post-CMP samples. Surface characterization was performed using AFM, SEM, and XPS techniques. Results from experiments were used to generate a new wear model, which provided insight from CMP mechanisms. The ECMP is currently the newest technique used in the semiconductor industries. This research is expected to contribute to the CMP technology and improve its process performance. This dissertation consists of six chapters. The first chapter covers the introduction and background information of surface forces and CMP. The motivation and objectives are discussed in the second chapter. The three major objectives which include approaches and expected results are covered in the next three chapters. Finally chapter VI summarizes the major discovery in this research and provides some recommendations for future work.
| Author | : Wei Che |
| Publisher | : |
| Total Pages | : 282 |
| Release | : 2005 |
| Genre | : |
| ISBN | : |
Download Synergy Between Chemical Dissolution and Mechanical Abrasion During Chemical Mechanical Polishing of Copper Book in PDF, ePub and Kindle
Chemical mechanical planarization (CMP) is becoming a promising mainstream semiconductor processing method because of its demonstrated capability to achieve better local and global planarization for various materials. However, the CMP process is influenced by a set of factors, which lead to a poor understanding of the material removal mechanisms (MRMs) and inhibits the migratability of the lab-scale experiments to industrial practice. This work focuses on the synergistic effects between chemical dissolution and mechanical abrasion to understand the MRMs during CMP. Initial in-situ wear test in chemically active slurry showed an increased material removal rate (MRR) relative to dry wear tests. To understand the synergistic effects, two plausible MRMs; (i) chemical dissolution enhanced mechanical abrasion and (ii) mechanical abrasion accelerated chemical dissolution, were investigated. In addition, a phenomenological MRR model based on scratch-intersections was formulated to understand the role of consumables and the process parameters. For mechanism I, a combined experimental and modeling technique was devised to understand the mechanical properties of the soft layer formed on the surface due to chemical exposure in CMP. The developed approaches utilized nano-scratch tests, nano-dynamic mechanical analysis (DMA) tests, the limit analysis solution of surface plowing under a spherical traveling indenter, and finite element simulation to deconvolute the soft layer thickness, hardness and elastic modulus. For mechanism II, it is found that the residual stress caused by the mechanical wear enhances the chemical etching rate, as manifested by an increase in wear depth. It is also found that the roughness with wavelength above a critical value grows while roughness of lower wavelength decays during etching, in which an established fact for stress-enhanced chemical dissolution is used. The developed understanding would enable understanding the root causes of defect generation mechanism and render remedies for yield improvements. The proposed models, through their mechanistic description, will facilitate an exploration of the design space and identification of realistic CMP process domains, including: (i) particle shape, size and concentration; (ii) adapting slurry chemistry for required rates of chemical dissolution and mechanical abrasion; and (iii) selecting pads with the proper surface morphology and stiffness.
| Author | : Jie Cheng |
| Publisher | : Springer |
| Total Pages | : 148 |
| Release | : 2017-09-06 |
| Genre | : Technology & Engineering |
| ISBN | : 9811061653 |
Download Research on Chemical Mechanical Polishing Mechanism of Novel Diffusion Barrier Ru for Cu Interconnect Book in PDF, ePub and Kindle
This thesis addresses selected unsolved problems in the chemical mechanical polishing process (CMP) for integrated circuits using ruthenium (Ru) as a novel barrier layer material. Pursuing a systematic approach to resolve the remaining critical issues in the CMP, it first investigates the tribocorrosion properties and the material removal mechanisms of copper (Cu) and Ru in KIO4-based slurry. The thesis subsequently studies Cu/Ru galvanic corrosion from a new micro and in-situ perspective, and on this basis, seeks ways to mitigate corrosion using different slurry additives. The findings presented here constitute a significant advance in fundamental and technical investigations into the CMP, while also laying the groundwork for future research.
| Author | : |
| Publisher | : |
| Total Pages | : 312 |
| Release | : 2001 |
| Genre | : Electrolytic polishing |
| ISBN | : |
Download Chemical-mechanical Polishing Book in PDF, ePub and Kindle
