This introductory, yet in-depth, book explains the physical principles of electronic imaging and sensing and provides the reader with the information necessary to understand the design, operation, and practical applications of contemporary electronic imaging and sensing systems. The text has strong practical focus and contains examples of biomedical applications of optical electronic imaging and sensing. Each chapter draws upon the authors’ extensive research, teaching, and industrial experience and provides a useful resource for undergraduate and graduate students, as well as a convenient reference for scientists and engineers working in the field of electronic imaging and sensing.
Contents
Preface.......................................................................................................................xi
Series Editor............................................................................................................ xiii
Editor........................................................................................................................xv
Contributors............................................................................................................xvii
Section I Technology and Devices
Chapter 1 Theory and Experiments on THz Devices on Graphene......................3
Taiichi Otsuji and Victor Ryzhii
Chapter 2 Theory and Experiments on THz Devices on Graphene.................................................................................... 37
Qi Jie Wang and Tao Liu
Chapter 3 Photonic Engineering of Terahertz Quantum Cascade Lasers........... 61
Qi Jie Wang and Guozhen Liang
Section II Imaging Sensors and Systems
Chapter 4 Intense Few-Cycle Terahertz Pulses and Nonlinear Terahertz
Spectroscopy.......................................................................................85
Ibraheem Al-Naib and Tsuneyuki Ozaki
Chapter 5 Applications of Terahertz Technology for Plastic Industry.............. 107
Daniel M. Hailu and Daryoosh Saeedkia
Chapter 6 Cross-Sectional Velocity Distribution Measurement Based on
Fiber-Optic Differential Laser Doppler Velocimetry........................ 121
Koichi Maru
Chapter 7 Integrated CMOS Optical Biosensor Systems.................................. 141
Sameer Sonkusale and Jian Guo
Chapter 8 Design of CMOS Microsystems for Time-Correlated Single-
Photon Counting Fluorescence Lifetime Analysis............................ 169
Liping Wei and Derek Ho
Section III Biomedical Applications
Chapter 9 Fiber Delivery of Femtosecond Pulses for Multiphoton Endoscopy.......195
Shuo Tang and Jiali Yu
Chapter 10 In Vivo Flow Cytometer: A Powerful Tool to Study Cancer
Metastasis......................................................................................... 213
Xun-Bin Wei, Dan Wei, Ping Yang, Zhen-Yu Niu, and Huamao Ye
Chapter 11 Transition Metal Luminophores for Cell Imaging............................227
Christopher S. Burke, Aisling Byrne, and Tia E. Keyes
Chapter 12 Three-Dimensional Electrical Impedance Tomography for
Pulmonary Embolism: A Simulation Study of a 16-Electrode
System............................................................................................... 255
D. Trang Nguyen, M.A. Barry, R. Kosobrodov,
A. Thiagalingam, and Alistair L. McEwan
Index ...................................................................................................................... 275
Biography
Shuo Tang received her BS and MS in electronics from Peking University, China, in 1992 and 1997, respectively. She received her PhD in electrical engineering from the University of California, Los Angeles, in 2003. From 2003 to 2006, she was a postdoctoral researcher at the Beckman Laser Institute at the University of California, Irvine. She began as an assistant professor at the Department of Electrical and Computer Engineering at the University of British Columbia in 2007, where she has been an associate professor since 2013. Prof. Tang’s research interests are in the broad areas of biomedical optical imaging systems and devices, including multiphoton microscopy, optical coherence tomography, photoacoustic imaging, and micro-endoscopy systems for biomedical applications. She is the author or coauthor of over 90 journal articles, conference papers, and book chapters.
Daryoosh Saeedkia received his PhD in electrical and computer engineering from the University of Waterloo in 2005. In 2010, he founded TeTechS Inc, a leading innovator and provider of advanced terahertz measurement solutions for scientific and industrial applications worldwide. He has more than 12 years of industrial and academic experience in terahertz photonics technology, has delivered 12 invited talks, and has published more than 55 scientific articles, a book, and a book chapter in the area of terahertz technology. Dr. Saeedkia is the recipient of the 2008 Douglas R. Colton Medal for Research Excellence in Canada and the 2006 NSERC Innovation Challenge Award.