Cutting-edge quantitative phase imaging techniques and their applications
Filled with unique, full-color images taken by advanced quantitative phase imaging (QPI), Quantitative Phase Imaging of Cells and Tissues thoroughly explores this innovative technology and its biomedical applications. An introductory background on optical imaging and traditional optical microscopy is included to illustrate concept development. The book explains how various visualization modalities can be obtained by numerical calculations. This authoritative resource reveals how to take full advantage of the unprecedented capabilities of QPI, such as rendering scattering properties of minute subcellular structures and nanoscale fluctuations in live cells.
Coverage includes:
Groundwork
Spatiotemporal field correlations
Image characteristics
Light microscopy
Holography
Point scanning QPI methods
Principles of full-field QPI
Off-axis full-field methods
Phase-shifting techniques
Common-path methods
White light techniques
Fourier transform light scattering (FTLS)
Current trends in QPI
Gabriel Popescu is Assistant Professor at the University of Illinois at Urbana-Champaign in the Department of Electrical and Computer Engineering, Beckman Institute for Advanced Science & Technology. He is the editor of Nanobiophotonics.
Keywords: QUANTITATIVE PHASE IMAGING OF CELLS AND TISSUES, BOOK, GUIDE, HOW TO, GABRIEL POPESCU, QUANTITATIVE, PHASE, IMAGING, CELLS, TISSUES, BIOMEDICAL ENGINEERING, TRADITIONAL MICROSCOPY, PRINCIPLES, SCANNING, QPI, TECHNIQUE, FULL-FIELD, OQI, APPLICATION, STATIC, DYNAMIC, FOURIER TRANSFORM LIGHT SCATTERING, FTLS, BIOMEDICAL INSTRUMENTATION, NANOBIOPHOTONICS, ADVANCED NONIMAGING/ILLUMINATION OPTICS, SCHAUM'S OUTLINE OF OPTICS, PHASE-SPACE OPTICS, SCHAUM'S OUTLINE OF PREPARATORY PHYSICS, HANDBOOK OF OPTICS, CHALCOGENIDE GLASSES FOR INFRARED OPTICS, OPTOFLUIDICS, 9780071601566M SENSORS HANDBOOK, SENSORS AND CONTROL SYSTEMS IN MANUFACTURING, HIGH POWER LASER HANDBOOK, RELIABILITY OF ROHS-COMPLIANT 2D AND 3D IC INTERCONNECTS, PHOTONICS ESSENTIALS, BIOMEDICAL ENGINEERING, ARTIFICIAL TACTILE SENSING IN BIOMEDICAL ENGINEERING, VIBRATIONAL SPECTROSCOPIC IMAGING FOR BIOMEDICAL APPLICATIONS, OPTICAL WAVEGUIDE MODES, BIOMEDICAL ENGINEERING AND DESIGN HANDBOOK, FOLDED UNIPOLE ANTENNAS, NANOTECHNOLOGY DEMYSTIFIED, REAL-TIME BIOMOLECULAR SIMULATIONS, ANTENNA ENGINEERING HANDBOOK, BIOMEDICAL APPLICATIONS OF LIGHT SCATTERING, APPLIED BIOFLUID MECHANICS, ORGANIC ELECTRONICS IN SENSORS AND BIOTECHNOLOGY, BIOSYSTEMS ENGINEERING, TRANSPORT PHENOMENA IN BIOMEDICAL ENGINEERING, COMPUTER AIDED DRUG DESIGN (CADD) AND DELIVERY SYSTEMS, IN VIVO CLINICAL IMAGING AND DIAGNOSIS