This chapter discusses the fundamental theory behind photosensing and imaging. It starts with a brief overview of the human vision system, and continues with the basic ideas behind photometry and radiometry used as radiation measuring systems. Next, it presents a brief history of phototransduction explaining the origins of solid-state photosensing through the development of quantum mechanics and the different applications of the photoelectric effect, and mentions someimportant developments in the fi eld of photodetectors prior to silicon based microelectronics
Optical Properties of Solids covers the important concepts of intrinsic optical properties and photo...
In modern optics, the photon concept is indispensable for an ever-increasing range of applications, ...
In modern optics, the photon concept is indispensable for an ever-increasing range of applications, ...
Photochemistry and photophysics are as old as our planet Earth. Photosynthesis in plants and vision ...
This chapter discusses in detail the physics behind the different silicon based photodetector techno...
In this introductory chapter we start with a brief summary of the implications of using radiation-in...
International audienceThis chapter is intended to provide a concise overview of some basic and gener...
Photochemistry and photophysics are natural phenomena as old as the world. Our life depends on photo...
A brief review of fundamental image formation principles, camera systems, and special cameras and im...
In the very first part of this series, we concisely explored the nature of electromagnetic radiation...
The concept of photosensitization had its origins in the serendipitous discovery in the 19th century...
AbstractPhysical aspects of medical science involve making physical models, physical approaches, and...
This chapter does not deal with any practical aspects of light measurement, only with theoretical co...
This book introduces the basic physical, chemical, and biological principles underlying the first st...
Photomultipliers are extremely sensitive light detectors that can detect single photons. In multiply...
Optical Properties of Solids covers the important concepts of intrinsic optical properties and photo...
In modern optics, the photon concept is indispensable for an ever-increasing range of applications, ...
In modern optics, the photon concept is indispensable for an ever-increasing range of applications, ...
Photochemistry and photophysics are as old as our planet Earth. Photosynthesis in plants and vision ...
This chapter discusses in detail the physics behind the different silicon based photodetector techno...
In this introductory chapter we start with a brief summary of the implications of using radiation-in...
International audienceThis chapter is intended to provide a concise overview of some basic and gener...
Photochemistry and photophysics are natural phenomena as old as the world. Our life depends on photo...
A brief review of fundamental image formation principles, camera systems, and special cameras and im...
In the very first part of this series, we concisely explored the nature of electromagnetic radiation...
The concept of photosensitization had its origins in the serendipitous discovery in the 19th century...
AbstractPhysical aspects of medical science involve making physical models, physical approaches, and...
This chapter does not deal with any practical aspects of light measurement, only with theoretical co...
This book introduces the basic physical, chemical, and biological principles underlying the first st...
Photomultipliers are extremely sensitive light detectors that can detect single photons. In multiply...
Optical Properties of Solids covers the important concepts of intrinsic optical properties and photo...
In modern optics, the photon concept is indispensable for an ever-increasing range of applications, ...
In modern optics, the photon concept is indispensable for an ever-increasing range of applications, ...
Add to ORKG