1 introduction – Ocean Optics NanoCalc User Manual

Ocean Optics Germany GmbH Thin Film Metrology

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1 Introduction

NanoCalc is a software to extract thickness and optical parameters of thin, transparent layers on different
substrates. NanoCalc uses Ocean Optics microspectrometers.

NanoCalc offers a lot of different options like:

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Simulation and measurement of multilayer systems (weakly absorbing or transparent)

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Optional: A powerful software engine in the background (“SCOUT”)

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An easy-to-use “internal “ mode for thickness extraction and/or Cauchy dispersion

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A graphical user interface that is very easy to use (recipes)

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Simulation of up to 10 layers (weakly absorbing or transparent)

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Highly accurate thickness measurements between some nanometers up to about 250 µm

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Extraction of dispersion n(λ) and k(λ), roughness, EMA-fractions and other layer parameters, if
using SCOUT add-on (and Cauchy models in internal mode)

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Use of reference systems

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3D - mapping mode with a motor driven xy(z)-stage (=function of position)

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Online/multipoint measurements (=function of time)

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Remote control via OLE-commands from external software

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Video

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Combination with ellipsometry (“ElliCalc”)

It is possible to measure in reflection mode (e.g. SiO

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-layer on silicon) and in transmission mode (e.g.

Ti

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O

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layer on a transparent BK7 glass).

Measurement principle
A thin layer is vertically illuminated with white light via a fiber and the spectrometer measures the reflected
(or transmitted) light as a function of wavelength. NanoCalc software determines thickness of the layer.

NanoCalc has 2 different modes of operation:

1. data extraction via an optional software tool called “SCOUT”. This SCOUT software is very powerful

and works more or less in the background. SCOUT is able to handle very complicated dispersion
curves, but needs some experience with optical modeling. NanoCalc acts as a user interface to simplify
the data extraction process. Even without deep understanding of the underlying physics it is possible to
measure complex layer systems by using a recipe concept. A layer recipe has to be loaded and the
rest is a “one-button-solution” (of course there must be an expert in the beginning to establish this
recipe. Ask your software supplier…)

2. data extraction by NanoCalc itself (without SCOUT). In this “internal mode” it is very easy to extract

thicknesses and –to some extent- dispersion values without optical modeling. Recipes may be used,
but even without recipes it is extremely simple to get results. This “internal mode” does not need an
expert, but it is not as powerful as the “SCOUT mode”.