ICCD cameras can record low light events with extreme temporal resolution. Thus, they are used in a variety of bio-medical applications for single photon time of flight measurements and LIDAR measurements. In this paper, we present a method which allows improvement of the temporal resolution of ICCD cameras down to 10 ps (from the native 200 ps of our model), thus placing ICCD cameras at a better temporal resolution than SPAD cameras and in direct competition with streak cameras. The higher temporal resolution can serve for better tracking and visualization of the information carried in time-of-flight measurements
Time-resolved cameras with high temporal resolution (down to ps) enable a huge set of novel applicat...
We present a compact camera module based on an array of 16 x 16 single-photon avalanche diodes (SPAD...
Depth sensing is an increasingly important feature in many applications of consumer, automotive, aug...
ICCD cameras can record low light events with extreme temporal resolution. Thus, they are used in a ...
Light in flight was captured by a single shot of a newly developed backside-illuminated multi-collec...
Time resolved imaging up to the single photon sensitivity is one of the most ambitious and important...
Several computer vision algorithms require a sequence of photographs taken in different illumination...
The recent development of 2D arrays of single-photon avalanche diodes (SPAD) has driven the developm...
Progress in the design and development of arrays of single photon avalanche diodes (SPAD) has led to...
We report on a comparative study of two time-resolved cameras based on digital Single Photon Avalanc...
Recovering temporal point spread functions (PSFs) is important for various applications, especially ...
A method is described or controlling and measuring the pulse width of electrical gate pulses used fo...
"Indirect" time-of-flight is one technique to obtain depth-resolved images through active illuminati...
Cameras with extreme speeds are enabling technologies in both fundamental and applied sciences. Howe...
The recent emergence of time-of-flight cameras has opened up new possibilities in the world of compu...
Time-resolved cameras with high temporal resolution (down to ps) enable a huge set of novel applicat...
We present a compact camera module based on an array of 16 x 16 single-photon avalanche diodes (SPAD...
Depth sensing is an increasingly important feature in many applications of consumer, automotive, aug...
ICCD cameras can record low light events with extreme temporal resolution. Thus, they are used in a ...
Light in flight was captured by a single shot of a newly developed backside-illuminated multi-collec...
Time resolved imaging up to the single photon sensitivity is one of the most ambitious and important...
Several computer vision algorithms require a sequence of photographs taken in different illumination...
The recent development of 2D arrays of single-photon avalanche diodes (SPAD) has driven the developm...
Progress in the design and development of arrays of single photon avalanche diodes (SPAD) has led to...
We report on a comparative study of two time-resolved cameras based on digital Single Photon Avalanc...
Recovering temporal point spread functions (PSFs) is important for various applications, especially ...
A method is described or controlling and measuring the pulse width of electrical gate pulses used fo...
"Indirect" time-of-flight is one technique to obtain depth-resolved images through active illuminati...
Cameras with extreme speeds are enabling technologies in both fundamental and applied sciences. Howe...
The recent emergence of time-of-flight cameras has opened up new possibilities in the world of compu...
Time-resolved cameras with high temporal resolution (down to ps) enable a huge set of novel applicat...
We present a compact camera module based on an array of 16 x 16 single-photon avalanche diodes (SPAD...
Depth sensing is an increasingly important feature in many applications of consumer, automotive, aug...