Instantaneous Fluid Film Imaging in Chemical Mechanical Planarization

Apone, Daniel; Gray, Caprice; Rogers, Chris; Manno, Vincent P.; Barns, Chris; Moinpour, Mansour; Anjur, Sriram; Philipossian, Ara

doi:10.1557/proc-867-w2.3

Cited by 5 publications

(7 citation statements)

References 7 publications

(6 reference statements)

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“…During polishing, the gap between the wafer and the pad is around 40 μm [2], which is of a similar magnitude as the pad roughness. During polishing, the gap between the wafer and the pad is around 40 μm [2], which is of a similar magnitude as the pad roughness.…”

Section: Introductionmentioning

confidence: 94%

CMP Method and Practice

Cadien

Nolan

2012

Handbook of Thin Film Deposition

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Section: Introductionmentioning

confidence: 94%

CMP Method and Practice

Cadien

Nolan

2012

Handbook of Thin Film Deposition

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“…The DELIF system uses the ratio of two different wavelength bands to estimate contact (for a complete DELIF overview see [8]). As illustrated in figure 3, a Nd/YAG laser firing at its third harmonic frequency, 355nm, is used as the excitation source for the high energy fluorophore, the polyurethane pad.…”

Section: Delifmentioning

confidence: 99%

“…Dual Emission Laser Induced Fluorescence (DELIF) has been used to attain highresolution 3D slurry layer and polishing pad profiles 7 and is capable of measuring instantaneous slurry layer thickness during the polishing process (in-situ) 8 . Previous investigations of padwafer interactions using DELIF include in-situ measurements of average fluid layer thickness, asperity layer compressibility, surface roughness measurements and polishing pad rebound into etched wells 9 .…”

Section: Introductionmentioning

confidence: 99%

Determining Pad-Wafer Contact using Dual Emission Laser Induced Fluorescence

et al. 2007

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It is becoming increasingly clear that understanding the small scale polishing mechanisms operating during CMP requires knowledge of the nature of the pad-wafer contact. Dual Emission Laser Induced Fluorescence (DELIF) can be used to study the fluid layer profile between the polishing pad and the wafer during CMP. Interactions between the polishing pad surface and the wafer can then be deduced from the fluid layer profile. We present a technique and some preliminary data for instantaneous measurement of in-situ pad-wafer contact, defined as the point at which the fluid film thickness goes to zero, using DELIF. The imaging area is 1.30mmx1.74 mm with a resolution of 2.

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“…Some have been based on computational fluid dynamics and other numerical methods. 5,11,[13][14][15][24][25][26][27][28][29][30][31][32] These studies have highlighted the vast computational resources needed to accomplish the task (with no, or very limited, experimental validation) especially when the effect of pad micro-texture is included in the analyses. Other methods have primarily dealt with qualitative flow visualization using dyed slurries and fluorescent fluids that would get illuminated when excited by a YAG laser 18,[32][33][34] or with an ultraviolet (UV) light source.…”

mentioning

confidence: 99%

“…5,11,[13][14][15][24][25][26][27][28][29][30][31][32] These studies have highlighted the vast computational resources needed to accomplish the task (with no, or very limited, experimental validation) especially when the effect of pad micro-texture is included in the analyses. Other methods have primarily dealt with qualitative flow visualization using dyed slurries and fluorescent fluids that would get illuminated when excited by a YAG laser 18,[32][33][34] or with an ultraviolet (UV) light source. 16,32 While the latter studies have certainly shed light on the complex flow patterns, the works have lacked quantifiable data and were somewhat less relevant to today's needs as the polishers that were used in those cases were small in size (i.e.…”

mentioning

confidence: 99%

Effect of Various CVD-Coated Conditioning Disc Designs and Polisher Kinematics on Fluid Flow Characteristics during CMP

Mariscal

Sampurno

Slutz

et al. 2020

ECS J. Solid State Sci. Technol.

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A novel experimental technique utilizing UV-enhanced fluorescence was developed and used to measure fluid film thicknesses and general flow patterns during conditioning on a polishing pad. The method was successfully applied to several case studies for analyses of how conditioners with different working face designs (i.e. complex vane, full-face and partial-face), in conjunction with different platen angular velocities, affected fluid transport. In general, for all discs types, fluid across the pad followed similar trends where films were thickest near the wafer track center and thinnest near the pad edge (measurements showed a thickness range of appx. 0.5 to 1.1 mm). For all discs, the time for the film thicknesses to reach steady-state increased in proportion to the distance away from the pad center (times ranged between 12 and 62 s). The full-face conditioner consistently produced the thinnest films and reached steady-state the fastest. In contrast, the complex vane conditioner created the thickest films and took longest to reach steady-state. The work demonstrated the significance of understanding and visualizing the mechanisms that can contribute to fluid transport during CMP and how our novel technique could contribute, in the near future, to a greater understanding of fluid transport during in-situ conditioning.

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Instantaneous Fluid Film Imaging in Chemical Mechanical Planarization

Cited by 5 publications

References 7 publications

CMP Method and Practice

CMP Method and Practice

Determining Pad-Wafer Contact using Dual Emission Laser Induced Fluorescence

Effect of Various CVD-Coated Conditioning Disc Designs and Polisher Kinematics on Fluid Flow Characteristics during CMP

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