Add to ORKGAIM has developed a family of two-dimensional IR detection modules providing high-speed with frame rates >1kHz together with state of the art thermal resolution with an NETD as low as NETD < 7mK based on either mercury cadmium telluride (MCT), platinum silicide (PtSi), or quantum well infrared photodetector (QWIP) technology to fit for various applications and budgets in research and development. One of the most recent devices is a low noise QWIP detection module with 256x256 pixels. The device operates in either rolling frame or flash integration mode and provides a thermal resolution as low as NETD <10mK for 20ms integration time. The device allows a maximum frame rate of 200Hz. Any synchronous or periodic noise source due to electronics ...
We report on our QWIP focal plane array (FPA) developments for thermal-imaging applications in the 8...
System properties of focal plane array (FPA) cameras based on GaAs/AlGaAs quantum well infrared phot...
This paper is intended to present firstly the current status at AIM on quantum well (QWIP) and antim...
Full video format focal plane array (FPA) modules with up to 640 X 512 pixels have been developed fo...
The 3rd generation of infrared (IR) detection modules is expected to provide video resolution or eve...
According to the common understanding, the 3rd generation of infrared (IR) detection modules is expe...
The 3rd generation of infrared (IR) detection modules is expected to provide video resolution or eve...
The family of 2 dimensional detection modules at AEG INFRAROT-MODULE GmbH (AIM) based on platinum si...
The 3rd generation of infrared (IR) detection modules is expected to provide advanced features like ...
The 3rd generation of infrared (IR) detection modules is expected to provide video resolution or eve...
The 3rd generation of infrared (IR) detection modules is expected to provide advanced features like ...
The 3rd generation of infrared (IR) detection modules is expected to provide advanced features like ...
This talk covers the recent developments in quantum structured infrared photodetector technology, as...
We report on our quantum well infrared photodetector (QWIP) developments aimed at high-performance t...
The third generation of infrared detection modules is characterized by advanced functionalities like...
We report on our QWIP focal plane array (FPA) developments for thermal-imaging applications in the 8...
System properties of focal plane array (FPA) cameras based on GaAs/AlGaAs quantum well infrared phot...
This paper is intended to present firstly the current status at AIM on quantum well (QWIP) and antim...
Full video format focal plane array (FPA) modules with up to 640 X 512 pixels have been developed fo...
The 3rd generation of infrared (IR) detection modules is expected to provide video resolution or eve...
According to the common understanding, the 3rd generation of infrared (IR) detection modules is expe...
The 3rd generation of infrared (IR) detection modules is expected to provide video resolution or eve...
The family of 2 dimensional detection modules at AEG INFRAROT-MODULE GmbH (AIM) based on platinum si...
The 3rd generation of infrared (IR) detection modules is expected to provide advanced features like ...
The 3rd generation of infrared (IR) detection modules is expected to provide video resolution or eve...
The 3rd generation of infrared (IR) detection modules is expected to provide advanced features like ...
The 3rd generation of infrared (IR) detection modules is expected to provide advanced features like ...
This talk covers the recent developments in quantum structured infrared photodetector technology, as...
We report on our quantum well infrared photodetector (QWIP) developments aimed at high-performance t...
The third generation of infrared detection modules is characterized by advanced functionalities like...
We report on our QWIP focal plane array (FPA) developments for thermal-imaging applications in the 8...
System properties of focal plane array (FPA) cameras based on GaAs/AlGaAs quantum well infrared phot...
This paper is intended to present firstly the current status at AIM on quantum well (QWIP) and antim...