Unbalanced low coherence interference microscopy
Permanent link
https://hdl.handle.net/10037/26469Date
2022-01-03Type
Journal articleTidsskriftartikkel
Peer reviewed
Abstract
Low coherence interference microscopy (LCIM) provides high spatial phase sensitivity, i.e., speckle free and coherent noise free quantitative phase images of the test specimens. Due to low temporal coherence (TC) length of
the light source, LCIM requires precise adjustment of the optical path difference (OPD) between the object and
the reference arm, which is only a few micrometers. Consequently, previously demonstrated LCIM systems are
implemented with the use of identical objective lenses in both the arms and also known as balanced interferometric configuration. The use of identical objective lens hinders both the use of high numerical aperture objective
lens and also the swift change of the objective lens during imaging. In the present work, LCIM is implemented
with non-identical objective lenses in the object and the reference arm also called unbalanced optical configuration. A range of objective lenses 10 × /0.25NA, 20 × /0.45NA and 60 × /1.2NA are employed in the object arm
of the system while keeping single objective lens 10 × /0.25NA in the reference arm. To resolve the challenges
associated with unbalanced configuration, advanced iterative algorithm (AIA) and principal component analysis
(PCA) algorithms are integrated to recover quadratic phase error free phase images of the test specimens. The
capabilities of the proposed method are exhibited on various specimens like USAF resolution, step-like test object
and for the biological cells, HeLa cells. The proposed approach enables scalable magnification and resolution by
simply rotating the imaging objective turret without the need of changing objective lens in the reference arm.
Publisher
ElsevierCitation
Ahmad, Habib, Dubey, Ahluwalia. Unbalanced low coherence interference microscopy. Optics and lasers in engineering. 2022Metadata
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