Title :
Breakthroughs in Photonics 2013: Quantitative Phase Imaging: Metrology Meets Biology
Author :
Taewoo Kim ; Renjie Zhou ; Goddard, L.L. ; Popescu, Gabriel
Author_Institution :
Dept. of Electr. & Comput. Eng., Univ. of Illinois at Urbana-Champaign, Champaign, IL, USA
Abstract :
Quantitative phase imaging (QPI) is an emerging optical approach that measures the optical path length of a transparent specimen noninvasively. Therefore, it is suitable for studying unstained biological tissues and cells with high sensitivity and resolution. This capability of QPI has fueled itself to grow rapidly as an active field of study for the past two decades. With this trend, QPI has experienced some breakthroughs in methods and applications in the past year. We briefly review some of these breakthroughs in method, including QPI through silicon marker-free phase nanoscopy and white-light diffraction tomography. Furthermore, some of the applications, such as quantitative phase measurement of cell growth and real-time blood testing, are introduced to show the importance and applicability of the field.
Keywords :
biological tissues; biomedical optical imaging; blood; cellular biophysics; light diffraction; optical tomography; phase measurement; transparency; QPI; biological tissues; cell growth; optical approach; optical path length; quantitative phase imaging; quantitative phase measurement; real-time blood testing; silicon marker-free phase nanoscopy; transparent specimen; white-light diffraction tomography; Biology; Deconvolution; Diffraction; Microscopy; Phase measurement; Three-dimensional displays; Optical imaging; interferometry; microscopy; phase measurement; tomography;
Journal_Title :
Photonics Journal, IEEE
DOI :
10.1109/JPHOT.2014.2309647
