Mr. Neal T. Sullivan Profile

Neal T. Sullivan

Vice President of Technology at Arradiance Inc

SPIE Involvement:

Author | Instructor

Publications (24)

Proceedings Article | 10 May 2005 Paper

Minimizing the impact of image icquisition on CD-SEM LER/LWR measurements

G. Sundaram, B.-H. Lee, T. Mai, N. Sullivan

Proceedings Volume 5752, (2005) https://doi.org/10.1117/12.601090

KEYWORDS: Line width roughness, Line edge roughness, Image acquisition, Monte Carlo methods, Image processing, Electronics, Photoresist processing, Optical simulations, Control systems, Polymers

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Proceedings Article | 10 May 2005 Paper

Developing an understanding of electron beam imaging of deep contact hole structures using Monte Carlo and spatial charge distribution simulations

Neal Sullivan, Byoung Lee, Yeong-Uk Ko

Proceedings Volume 5752, (2005) https://doi.org/10.1117/12.601521

KEYWORDS: Monte Carlo methods, Silica, Scanning electron microscopy, Computer simulations, Selenium, Imaging systems, Electron beams, Optical simulations, Semiconducting wafers, Statistical modeling

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Proceedings Article | 24 May 2004 Paper

Low-impact resist metrology: the use of ultralow voltage for high-accuracy performance

Ganesh Sundaram, Neal Sullivan, Tung Mai, Chih-Ming Ke

Proceedings Volume 5375, (2004) https://doi.org/10.1117/12.539221

KEYWORDS: Semiconducting wafers, Metrology, Electrons, Line edge roughness, Critical dimension metrology, Monte Carlo methods, Optical proximity correction, Silicon, Scanning electron microscopy, Photoresist materials

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Previous results have demonstrated that the most significant line slimming occurs during the initial measurement and is a strong function of landing energy. Since it is difficult to accurately estimate the initial CD value (M0), many test protocols rely on the measurement change between the first and second measurement pass (M1-M2), to evaluate line slimming. However, since the slimming behavior of ArF resist systems has been shown to be exponential and dependant upon the resist formulation, using M1-M2 as the metric for comparing between CD SEM suppliers can severely underestimate the impact of a particular system setup on line slimming. The experiments reported here represent an attempt to assess the impact of the initial measurement (M0-M1) on line slimming. A series of experiments were designed to assess the impact of landing energy on line slimming for ArF photoresist. To validate the results of the experiments, an etched poly wafer was used as a control sample to ensure that metrology differences noted on the ArF resist between a high voltage 800 eV and an Ultra-Low Voltage (ULV) 100 eV condition arose purely from the interaction of the E-beam with the resist. The most significant line slimming was observed to occur during the first measurement at 800 eV, with greater than 10 nm of slimming observed on a nominal 120nm lines), followed by relatively stable slimming performance thereafter. The 100 eV condition demonstrated a significantly reduced level of slimming as a result of the first measurement; if there was any slimming, it could not be distinguished from the uncertainty in the estimate of the initial CD (M0). Measurements were also performed dynamically and at the ULV 100 eV condition slimming was indistinguishable from contamination induced linewidth growth, leading to an initial value closely matching the unperturbed linewidth (M0). The superior ArF line slimming performance at ULV is consistent with numerous published results, and demonstrates the need to assess slimming by a meaningful metric through a comparison of the initial measurement (M1) at high and low voltages, or by a comparison of the initial measurement M1 with the unperturbed linewidth (M0). The results of the experiments conducted point to a need for Low Impact Resist Measurement performance, which is fulfilled by Ultra-Low Voltage Metrology.

Proceedings Article | 24 May 2004 Paper

CD-SEM-based critical shape metrology of integrated circuits

Dmitry Gorelikov, Jason Remillard, Neal Sullivan

Proceedings Volume 5375, (2004) https://doi.org/10.1117/12.536499

KEYWORDS: Critical dimension metrology, Atomic force microscopy, Semiconducting wafers, Monte Carlo methods, Metrology, Photoresist materials, Calibration, Scanning electron microscopy, Integrated circuits, Computer simulations

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Proceedings Article | 10 July 2003 Paper

Applications of image diagnostics to metrology quality assurance and process control

John Allgair, Victor Boksha, Benjamin Bunday, Alain Diebold, Daniel Cole, Mark Davidson, Jerry Hutcheson, Andrew Gurnell, David Joy, John McIntosh, Sylvain Muckenhirn, Joseph Pellegrini, Robert Larrabee, James Potzick, Andras Vladar, Nigel Smith, Alexander Starikov, Neal Sullivan, Oliver Wells

Proceedings Volume 5042, (2003) https://doi.org/10.1117/12.504320

KEYWORDS: Metrology, Diagnostics, Dimensional metrology, Optical lithography, Manufacturing, Process control, Image processing, Critical dimension metrology, Semiconducting wafers, Edge roughness

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Proceedings Article | 2 June 2003 Paper

CD-SEM image acquisition effects on 193-nm resist line slimming

Neal Sullivan, Martin Mastovich, Scott Bowdoin, Robert Brandom

Proceedings Volume 5038, (2003) https://doi.org/10.1117/12.487604

KEYWORDS: Line edge roughness, Electron beams, Metrology, Critical dimension metrology, Diffractive optical elements, Image acquisition, Transistors, Process control, Scanning electron microscopy, Semiconducting wafers

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Proceedings Article | 2 June 2003 Paper

Electron beam metrology of 193-nm resists at ultralow voltage

Neal Sullivan, Ron Dixson, Benjamin Bunday, Martin Mastovich, Paul Knutrud, Pascal Fabre, Robert Brandom

Proceedings Volume 5038, (2003) https://doi.org/10.1117/12.487598

KEYWORDS: Critical dimension metrology, Scanning electron microscopy, Atomic force microscopy, Metrology, Electron beams, Data modeling, Contamination, Semiconducting wafers, Systems modeling, Process control

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Proceedings Article | 22 August 2001 Paper

Redefining critical in critical dimension metrology

Farid Askary, Neal Sullivan

Proceedings Volume 4344, (2001) https://doi.org/10.1117/12.436721

KEYWORDS: Critical dimension metrology, Metrology, Signal detection, Calibration, Process control, Semiconductor manufacturing, Scanning electron microscopy, Photomasks, Finite element methods, Interfaces

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Critical dimension (CD) metrology as practiced in semiconductor industry displays characteristics not observed in other metrology disciplines. This paper will present some of the unusual aspects of CD metrology and attempt to elucidate the causes for the observed behavior. Through an examination of the characteristics of measurement accuracy, it is possible to observe these situations where CD metrology departs from the ideal. The typical process for achieving accuracy involves the use of certified standards in a well-defined calibration procedure. However, calibrating CD instruments with linewidth standards will not necessarily guarantee sufficient accuracy of subsequent measurements of production samples. This well-known result follows from lack of physical models to relate the detected signal to sample shape in combination with the many-to-one nature of the mathematical mapping that describes the process of obtaining CD from feature shape. Despite this limitation, monitoring tools such as CD-SEM systems have demonstrated to be useful for process control and are extensively used in semiconductor manufacturing. The requisites for a well-behaved measurement process will be described in detail. The unusual characteristics of CD metrology will be identified, as will the underlying reasons for the behavior. These results will be examined in the light of common process control techniques to explain how CD-SEM measurements still add value despite the flaws. In conclusion the role and value of certified standards in feature shape determination will be placed in the context of CD metrology. Reference Measurement Systems in conjunction with calibration standards are recommended to characterize process variations and determine feature shapes across a variety of samples. In order to ensure that the high throughput monitoring metrology tools flag process excursions for not meeting specifications, feature shapes must be quantified with additional metrics besides a single number CD.

Proceedings Article | 22 August 2001 Paper

Secondary-electron image profiles using bias voltage technique in deep contact hole

Yeong-Uk Ko, David Joy, Neal Sullivan, Martin Mastovich

Proceedings Volume 4344, (2001) https://doi.org/10.1117/12.436786

KEYWORDS: Selenium, Monte Carlo methods, Oxides, Semiconducting wafers, Image enhancement, Electron beams, Autoregressive models, Image processing, Semiconductors, Fabrication

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Proceedings Article | 22 August 2001 Paper

Investigation of full-field CD control of sub-100-nm gate features by phase-shift 248-nm lithography

Michael Fritze, Brian Tyrrell, David Astolfi, Paul Davis, Bruce Wheeler, Renee Mallen, J. Jarmolowicz, Susan Cann, David Chan, Peter Rhyins, Martin Mastovich, Neal Sullivan, Robert Brandom, Chris Carney, John Ferri, B. Blachowicz

Proceedings Volume 4344, (2001) https://doi.org/10.1117/12.436759

KEYWORDS: Lithography, Semiconducting wafers, Optical lithography, Photomasks, Critical dimension metrology, Reticles, Cadmium, Resolution enhancement technologies, Metrology, Phase shifts

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Proceedings Article | 5 July 2000 Paper

Application of chromeless phase-shift masks to sub-100-nm SOI CMOS transistor fabrication

Michael Fritze, James Burns, Peter Wyatt, David Astolfi, T. Forte, Donna Yost, Paul Davis, Andrew Curtis, Douglas Preble, Susan Cann, Sandy Denault, Hua-Yu Liu, Joe Shaw, Neal Sullivan, Robert Brandom, Martin Mastovich

Proceedings Volume 4000, (2000) https://doi.org/10.1117/12.389028

KEYWORDS: Photomasks, Transistors, Etching, Lithography, Plasma etching, Scanning electron microscopy, Deep ultraviolet, Mask making, Resolution enhancement technologies, Plasma

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Proceedings Article | 5 July 2000 Paper

Application of attenuated phase-shift masks to sub-0.18-um logic patterns

Michael Fritze, Peter Wyatt, David Astolfi, Paul Davis, Andrew Curtis, Douglas Preble, Susan Cann, Sandy Denault, David Chan, Joe Shaw, Neal Sullivan, Robert Brandom, Martin Mastovich

Proceedings Volume 4000, (2000) https://doi.org/10.1117/12.388955

KEYWORDS: Photomasks, Logic, Lithographic illumination, Image processing, Lithography, Optical proximity correction, Photoresist processing, Optical lithography, Scanning electron microscopy, Semiconductors

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Proceedings Article | 2 June 2000 Paper

Importance of measurement accuracy in statistical process control

Farid Askary, Neal Sullivan

Proceedings Volume 3998, (2000) https://doi.org/10.1117/12.386462

KEYWORDS: Scanning electron microscopy, Process control, Critical dimension metrology, Manufacturing, Calibration, Metrology, Photomasks, Systems modeling, Scanning probe microscopes, Semiconducting wafers

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Proceedings Article | 8 June 1998 Paper

Toward a unified advanced CD-SEM specification for sub-0.18-um technology

John Allgair, Charles Archie, G. Banke, E. Hal Bogardus, Joseph Griffith, Herschel Marchman, Michael Postek, Lumdas Saraf, Jerry Schlesinger, Bhanwar Singh, Neal Sullivan, Lee Trimble, Andras Vladar, Arnold Yanof

Proceedings Volume 3332, (1998) https://doi.org/10.1117/12.308724

KEYWORDS: Semiconducting wafers, Metrology, Pattern recognition, Scanning electron microscopy, Contamination, Lithography, Calibration, Standards development, Wafer testing, Electron microscopes

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Proceedings Article | 7 July 1997 Paper

Investigation of the effects of charging in SEM-based CD metrology

Mark Davidson, Neal Sullivan

Proceedings Volume 3050, (1997) https://doi.org/10.1117/12.275912

KEYWORDS: Monte Carlo methods, Scanning electron microscopy, Critical dimension metrology, Electron beams, Electron microscopes, Metrology, Electrodes, Optical simulations, Electron holes, Dielectrics

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Proceedings Article | 7 July 1997 Paper

Statistical verification of multiple CD-SEM matching

Doreen Erickson, Neal Sullivan, Richard Elliott

Proceedings Volume 3050, (1997) https://doi.org/10.1117/12.275941

KEYWORDS: Scanning electron microscopy, Critical dimension metrology, Error analysis, Statistical analysis, System identification, Tolerancing, Semiconducting wafers, Process control, Metrology, Metals

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Proceedings Article | 21 May 1996 Paper

Measurement of a CD and sidewall angle artifact with two-dimensional CD AFM metrology

Ronald Dixson, Neal Sullivan, Jason Schneir, Thomas McWaid, Vincent Tsai, Jerry Prochazka, Michael Young

Proceedings Volume 2725, (1996) https://doi.org/10.1117/12.240113

KEYWORDS: Transmission electron microscopy, Atomic force microscopy, Metrology, Scanning electron microscopy, Calibration, Photomicroscopy, Critical dimension metrology, Silicon, Scanners, Standards development

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Proceedings Article | 21 May 1996 Paper

Toward accurate linewidth metrology using atomic force microscopy and tip characterization

Ronald Dixson, Jason Schneir, Thomas McWaid, Neal Sullivan, Vincent Tsai, Saleem Zaidi, Steven Brueck

Proceedings Volume 2725, (1996) https://doi.org/10.1117/12.240131

KEYWORDS: Optical spheres, Particles, Transmission electron microscopy, Silicon, Gold, Photomicroscopy, Atomic force microscopy, Error analysis, Metrology, Atomic force microscope

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Proceedings Article | 26 May 1995 Paper

Comparison of state-of-the-art DUV lenses

Tracy Lindsay, Neal Sullivan, Sasha Dass, Gregory Pollard, Bill Jones

Proceedings Volume 2440, (1995) https://doi.org/10.1117/12.209295

KEYWORDS: Deep ultraviolet, Semiconducting wafers, Lenses, Monochromatic aberrations, Metrology, Manufacturing, Photoresist processing, Distortion, Scanning electron microscopy, Reticles

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Proceedings Article | 22 May 1995 Paper

Monte Carlo simulation for CD SEM calibration and algorithm development

Mark Davidson, Neal Sullivan

Proceedings Volume 2439, (1995) https://doi.org/10.1117/12.209218

KEYWORDS: Monte Carlo methods, Scanning electron microscopy, Standards development, Calibration, Critical dimension metrology, Data modeling, Scattering, Semiconducting wafers, Photomasks, Semiconductors

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Proceedings Article | 22 May 1995 Paper

SEM review of unpatterned particle monitor wafers

Scott Arsenault, Neal Sullivan

Proceedings Volume 2439, (1995) https://doi.org/10.1117/12.209198

KEYWORDS: Semiconducting wafers, Scanning electron microscopy, Particles, Optical alignment, Laser marking, Silicon, Wafer inspection, Laser systems engineering, Inspection, Error analysis

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Proceedings Article | 1 July 1994 Paper

Semiconductor pattern overlay

Neal Sullivan

Proceedings Volume 10274, 102740C (1994) https://doi.org/10.1117/12.187454

KEYWORDS: Semiconductors, Overlay metrology, Algorithm development, Semiconductor manufacturing, Tolerancing, Semiconducting wafers, Optical components, Optics manufacturing, Wafer-level optics, Optical testing

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Proceedings Article | 1 May 1994 Paper

Critical dimension measurement in the SEM: comparison of backscattered vs. secondary electron detection

Neal Sullivan, Robert Newcomb

Proceedings Volume 2196, (1994) https://doi.org/10.1117/12.174120

KEYWORDS: Scanning electron microscopy, Imaging systems, Semiconductors, Electron microscopes, Metrology, Critical dimension metrology

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Proceedings Article | 1 May 1994 Paper

Overlay sample plan optimization for the detection of higher order contributions to misalignment

Ian Fink, Neal Sullivan, James Lekas

Proceedings Volume 2196, (1994) https://doi.org/10.1117/12.174141

KEYWORDS: Overlay metrology, Data modeling, Distortion, Statistical modeling, Manufacturing, Semiconducting wafers, Reticles

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Showing 5 of 24 publications

Proceedings Volume Editor (2)

SPIE Conference Volume | 22 August 2001

Metrology, Inspection, and Process Control for Microlithography XV

SPIE Conference Volume | 2 June 2000

Metrology, Inspection, and Process Control for Microlithography XIV

Conference Committee Involvement (9)

Metrology, Inspection, and Process Control for Microlithography XXIII

23 February 2009 | San Jose, California, United States

Metrology, Inspection, and Process Control for Microlithography XXII

25 February 2008 | San Jose, California, United States

Metrology, Inspection, and Process Control for Microlithography XXI

26 February 2007 | San Jose, California, United States

Metrology, Inspection, and Process Control for Microlithography XX

20 February 2006 | San Jose, California, United States

Metrology, Inspection, and Process Control for Microlithography XIX

28 February 2005 | San Jose, California, United States

Showing 5 of 9 Conference Committees

Course Instructor

SC108: Fundamentals of Critical Dimension Metrology

Critical Dimension (CD) Metrology involves measurement of planar structures on semiconductor, mask and thin film head substrates. This full day course provides an overview of CD metrology emphasizing Scanning Electron Microscope (SEM) applications for process control and characterization. Metrology specifications and methods for estimating measurement performance for each application are discussed. An overview of image formation in SEM is presented with a discussion of system consequences. Other methods of CD measurement and future trends in CD Metrology are explored.

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