Investigation and design of tunable zoom lenses in the near infrared (NIR) imaging application
Optical zoom systems have been found to make ways into many applications. They have been developed for better flexibility. They have found an many fields including military systems, machine vision and others. Infrared radiations are invisible radiation ranging from about 750 nanometres, jus...
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Format: | Theses and Dissertations |
Language: | English |
Published: |
2013
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Online Access: | http://hdl.handle.net/10356/54722 |
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Institution: | Nanyang Technological University |
Language: | English |
Summary: | Optical zoom systems have been found to make ways into many
applications. They have been developed for better flexibility. They have found an
many fields including military systems, machine vision and others. Infrared
radiations are invisible radiation ranging from about 750 nanometres, just longer
than red in the visible spectrum, to Irnillimeter, shorter than the micro waves. It is
classified into Near-infrared, Short-wavelength Infrared, Mid-wavelength Infrared,
Long-wavelength Infrared and Far-infrared.
According to the ISO specifications, Near Infrared (NIR) ranges from 750
nanometres to 3000 nanometres. For more than two decades research has been
made in Mid and Far Infrared Imaging. Since then there have been many
advancements in this field. Due to the recent developments in the field of detectors
for SWIR range, there has been an importance for zoom lenses in this range.
Commercially available systems for the NIR Imaging applications are mostly Fixed
Focal Length Lenses or Non-Continuous Variable Focal Length Lenses. Hence, a
Tuneable Zoom Lenses are necessary. Currently, intense research is being made to
develop a system which has a variable zoom for Short wavelength Infrared.
The main aim of this dissertation is to successfully design and develop a
continuous Zoom lens system which will work in the Near Infrared wavelength
range with the optical elements available for the visible spectrum using ZEMAX
software and to investigate the Optical performance such as Modulation Transfer
Function (MTF) and spot radius. |
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