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Title:High throughput platform for multiscale quantitative phase imaging
Author(s):Kandel, Mikhail Eugene
Advisor(s):Popescu, Gabriel
Department / Program:Electrical & Computer Eng
Discipline:Electrical & Computer Engr
Degree Granting Institution:University of Illinois at Urbana-Champaign
Degree:M.S.
Genre:Thesis
Subject(s):Microscopy
Interferometry
Quantitative phase imaging
High throughput imaging
Gradient light interference microscopy (GLIM)
Diffraction phase microscopy
Spatial light interference microscopy (SLIM)
Diffraction phase microscopy (DPM)
Multiscale imaging
Tomography
Slide scanner
Abstract:Quantitative phase imaging (QPI) yields the spatial phase map of the object’s scattering potential. QPI has enabled unprecedented label-free studies in biomedicine, ranging from cell dynamics and growth to cancer diagnosis and prognosis. The field is currently transitioning from technology-driven to application-driven research and from engineering-background users to biomedical-background users. Aligned with these efforts, we present our recent advances in high-throughput, user-friendly QPI technology for multiscale spatiotemporal imaging.
Issue Date:2016-12-09
Type:Thesis
URI:http://hdl.handle.net/2142/95429
Rights Information:Copyright 2016 Mikhail Kandel
Date Available in IDEALS:2017-03-01
Date Deposited:2016-12


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