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We present the designs of novel optode based probes integrating light detection and light-pulsing electronics in a single CMOS chip with functional blocks such as a fast pulse-laser driver and synchronized single-photon detection circuit, while exploiting the null/small source-detector distance (ns-SDD) configuration which features the highest sensitivity to deep tissue. With the perspective of simplifying the output, photon counts are accumulated in a counter on-chip and transmitted as an analog signal mimicking the signal one would get from normal linear analog photodetectors. Development of a single optode, incorporating source and detectors very close to each other within the assembly, eliminates the use of optical fibers and could yield a completely novel near infrared system (NIRS) architecture where time-domain photon-counting approach is utilized to quantify changes in the number of photons scattering back to nearly where they came from.
Luc Thévenaz, Tiago Filipe Pimentel Das Neves
Tobias Kippenberg, Rui Ning Wang, Guanhao Huang, Junqiu Liu, Arslan Sajid Raja