Michael A. Laughery scite author profile

Tool matching and optimal process control are critical requirements for success in semiconductor manufacturing. It is imperative that a tool's operating conditions are understood and controlled in order to create a process that is repeatable and produces devices within specifications. Likewise, it is important where possible to match multiple systems using some methodology, so that regardless of which tool is used the process remains in control. Agere Systems is currently using Timbre Technologies' Optical Digital Profilometry (ODP) scatterometry for controlling Nikon scanner focus at the most critical lithography layer; logic gate. By adjusting focus settings and verifying the resultant changes in resist profile shape using ODP, it becomes possible to actively control scanner focus to achieve a desired resist profile. Since many critical lithography processes are designed to produce slightly re-entrant resist profiles, this type of focus control is not possible via Critical Dimension Scanning Electron Microscopy (CDSEM) where reentrant profiles cannot be accurately determined. Additionally, the high throughput and non-destructive nature of this measurement technique saves both cycle time and wafer costs compared to cross-section SEM. By implementing an ODP daily process check and after any maintenance on a scanner, Agere successfully enabled focus drift control, i.e. making necessary focus or equipment changes in order to maintain a desired resist profile.

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Scatterometry feasibility studies for 0.13-micron flash memory lithography applications: enabling integrated metrology

Lensing¹,

Miller²,

Chudleigh³

et al. 2004

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A series of experiments were performed to determine if the ThermaWave INTEGRA TM CCDi reflectometer combined with Timbre Technologies' Optical Digital Profiler TM (ODP) software could meet the requirements for lithography cell integration and process control of critical 0.13-micron Flash memory applications. Shallow Trench Isolation (STI), First Poly Gate, Stacked Gate and Aluminum Interconnect layers were examined as a part of this study. ODP models were developed for each of these applications and their output was compared to Critical Dimension Scanning Electron Microscopy (CDSEM) and cross-section SEM to demonstrate adequate correlation to incumbent metrology techniques. ODP is shown herein to correlate to CDSEM while providing the throughput required to measure every wafer without creating a bottleneck for the lithography cell. Experimental results also suggest that, in many cases, ODP can deliver profile determination beyond the fundamental capability of standard in-line metrology techniques.

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Correlation between the reliability of ultrathin ISSG SiO 2 and hydrogen content

Luo¹,

Alshareef²,

Brown³

et al. 2000

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Shallow trench isolation scatterometry metrology in a high volume fab

Lensing

Markle²,

Stirton³

et al.

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