Abstract: A reference substrate for calibrating high-energy inspection systems includes permanently affixed particle-emulating and/or integral void-type environmentally inert surface features that emulate particles/defects having sizes below about 18 nm. Particle-emulating surface features are fabricated directly onto the substrate's surface (or an intervening barrier film layer) using e-beam lithography or over-etch processing. Void-type defect features having sizes below 18 nm are etched into the substrate's surface using, for example, focused ion beam, reactive particle or pin-hole etching processes. Once formed, the actual size of each surface feature is measured (e.g., using SEM) and then recorded. During a subsequent inspection tool calibration session, the reference substrate is scanned and waveform data corresponding to light reflected/scattered from each surface feature is correlated with the scanned feature's actual size data.

Abstract: A particle deposition system having an atomizer, wafer transport, sheath flow means, particle counter and computer control for accurately depositing a desired density of particles onto a surface. The sheath flow keeps an article clean, while the particle flux in the deposition chamber is rising from zero to an equilibrium state. The particle counter measures particle flux by sampling the atmosphere in the deposition chamber. The computer determines when the rate of change of particle flux is substantially zero and then actuates transport of the article completely or partially out of the sheath flow into the mist of falling particles. The computer also calculates the required deposition time for providing the article's surface with a desired particle density, actuating transport of the article back into the sheath flow after the desired density is reached. The operator of the system can specify particle size, desired density and full or partial coverage of the surface with particles.