the experiment restarts.
A simulation with 90ns dead-time period:
[{{howto:logf.png?320x240|Fig. 2: ... timescale is in ns. The plateau is the [[glossary:dead time]]. The decay slope depends on the count rate
{{tag> pile-up dead_time IRF differential_countrate}}
====== Differential Count Rate ======
Ideally, a... SYNC rate" is a result of **sparse sampling with dead time**. The sampled signal features much higher p
{{tag> TCSPC pile-up dead_time}}
~~TOC~~
====== Pile-Up Effect ======
The Pile-Up effect describes the ... hotons lost at high photon count rates due to the dead time of the TCSPC devices.
Most single photon c... ting detectors and [[TCSPC]] electronics have a [[dead time]]. After registering one photon the device n... me to be ready for the next photon to detect. The dead time for TCSPC devices used for the measurement o
====== Dead Time ======
In TCSPC the term dead time refers to the time the TCSPC system needs armed again after detecting an event. During the dead time the TCSPC system is blind.
If for example two photons are detected with the dead time of the TCSPC device the second photon will b
This reduces the sync rate so that the channel [[dead time]] is no longer a problem.
* The remaining... sen in doubling steps between 4 ps and 512 ps.
[[Dead time]] in T3 Mode is the same as in the other mod... se only starting from lag times larger than the [[dead time]].
The 32 bit event records are queued in a... events will be dropped except those lost in the [[dead time]] anyhow. The FIFO output is continuously re
time span can be recovered at full resolution. [[Dead time]]s exist only within each channel (95 ns typ... se only starting from lag times larger than the [[dead time]].
The 32 bit event records are queued in a... events will be dropped except those lost in the [[dead time]] anyhow. The FIFO output is continuously re