List of Figures

Chapter 1: Nanolithography

Figure 1.1: Schematic of positive and negative resists.
Figure 1.2: (a) Characteristic curve of a hypothetical positive tone resist (b) optical projection lithography schematic.
Figure 1.3: (a) Dual-mask PSM technique. The original pattern for the gate is modified to create a phase shift mask and a "trim" mask. The phase shift mask creates a thin line exposure and the trim mask defines the remaining features. (b) SEM micrograph of DSP chip with 120 nm gates printed with 248 nm DUV lithography and dual-mask PSM technique. The original gate size was 250 nm.
Figure 1.4: Gaussian beam, shaped beam, and cell projection DWEB schematics.
Figure 1.5: Schematic of Electron Projection Lithography employing scattering contrast.
Figure 1.6: Schematic of a focused ion beam system. (Courtesy A. Kubis, U. Von)
Figure 1.7: Atomic force microscope image of topography in PMMA following FIB exposure at 1 pA beam current and a total irradiation time of 20 ?s per feature. (From Ref. 24 by permission of American Institute of Physics.)
Figure 1.8: (a) Variation of feature size with distance of sample from focus position in FIB. (From Ref. 23 by permission of American Institute of Physics.) (b) FIB-induced Pt deposition onto the periphery of a 5 cm radius of curvature gold-coated glass lens, corresponding to height differences of order 30 ?m. All images and patterns are recorded without refocusing of the ion beam. Sub 100 nm resolution is maintained over the entire field.
Figure 1.9: Schematic illustration of the microcontact printing...

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Introduction to Nanoscale Science and Technology

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Chapter 1: Nanolithography

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