Abstract
The continuous development of laser systems toward more compact and efficient devices constitutes an increasing threat to electro-optical imaging sensors, such as complementary metal–oxide–semiconductors (CMOS) and charge-coupled devices. These types of electronic sensors are used in day-to-day life but also in military or civil security applications. In camera systems dedicated to specific tasks, micro-optoelectromechanical systems, such as a digital micromirror device (DMD), are part of the optical setup. In such systems, the DMD can be located at an intermediate focal plane of the optics and it is also susceptible to laser damage. The goal of our work is to enhance the knowledge of damaging effects on such devices exposed to laser light. The experimental setup for the investigation of laser-induced damage is described in detail. As laser sources, both pulsed lasers and continuous-wave (CW)-lasers are used. The laser-induced damage threshold is determined by the single-shot method by increasing the pulse energy from pulse to pulse or in the case of CW-lasers, by increasing the laser power. Furthermore, we investigate the morphology of laser-induced damage patterns and the dependence of the number of destructive device elements on the laser pulse energy or laser power. In addition to the destruction of single pixels, we observe aftereffects, such as persistent dead columns or rows of pixels in the sensor image.
Highlights
Since the invention of the laser in 1960, laser systems have become more and more powerful and even more compact from year to year
One of our concepts to suppress laser dazzle in camera systems is based on installing a digital micromirror device (DMD) into a focal plane of an optical setup in combination with wavelength multiplexing.[3,4,5]
The results enable us to get first indications, determine which of these devices suffer damage first from laser radiation, and to check if the DMD acts as a sacrificial element in the optical setup
Summary
Since the invention of the laser in 1960, laser systems have become more and more powerful and even more compact from year to year. Laser radiation is increasingly becoming a hazard to the human eye as well as to electro-optical imaging sensors— in form of laser damage and due to laser dazzle. Knowing that detectors, such as complementary metal–oxide–semiconductors (CMOS) or charge-coupled devices (CCD), are very sensitive to laser light, there is a strong continued interest in protection measures against dazzling and damaging. Which device will be damaged first? The DMD or the imaging sensor?
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