Gerald Kell scite author profile

Gerald Kell

5Publications

71Citation Statements Received

49Citation Statements Given

How they've been cited

106

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Affiliations

Brandenburg University of Applied Sciences, Humboldt-Universität zu Berlin

Publications

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Scalable time-correlated photon counting system with multiple independent input channels

Wahl

Rahn

Röhlicke

et al. 2008

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Time-correlated single photon counting continues to gain importance in a wide range of applications. Most prominently, it is used for time-resolved fluorescence measurements with sensitivity down to the single molecule level. While the primary goal of the method used to be the determination of fluorescence lifetimes upon optical excitation by short light pulses, recent modifications and refinements of instrumentation and methodology allow for the recovery of much more information from the detected photons, and enable entirely new applications. This is achieved most successfully by continuously recording individually detected photons with their arrival time and detection channel information (time tagging), thus avoiding premature data reduction and concomitant loss of information. An important property of the instrumentation used is the number of detection channels and the way they interrelate. Here we present a new instrument architecture that allows scalability in terms of the number of input channels while all channels are synchronized to picoseconds of relative timing and yet operate independent of each other. This is achieved by means of a modular design with independent crystal-locked time digitizers and a central processing unit for sorting and processing of the timing data. The modules communicate through high speed serial links supporting the full throughput rate of the time digitizers. Event processing is implemented in programmable logic, permitting classical histogramming, as well as time tagging of individual photons and their temporally ordered streaming to the host computer. Based on the time-ordered event data, any algorithms and methods for the analysis of fluorescence dynamics can be implemented not only in postprocessing but also in real time. Results from recently emerging single molecule applications are presented to demonstrate the capabilities of the instrument.Scalable time-correlated photon counting system with multiple independent input channels Time-correlated single photon counting continues to gain importance in a wide range of applications. Most prominently, it is used for time-resolved fluorescence measurements with sensitivity down to the single molecule level. While the primary goal of the method used to be the determination of fluorescence lifetimes upon optical excitation by short light pulses, recent modifications and refinements of instrumentation and methodology allow for the recovery of much more information from the detected photons, and enable entirely new applications. This is achieved most successfully by continuously recording individually detected photons with their arrival time and detection channel information ͑time tagging͒, thus avoiding premature data reduction and concomitant loss of information. An important property of the instrumentation used is the number of detection channels and the way they interrelate. Here we present a new instrument architecture that allows scalability in terms of the number of input channels while all channels are synchronized ...

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Integrated multichannel photon timing instrument with very short dead time and high throughput

Wahl

Röhlicke

Rahn

et al. 2013

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Precisely timed detection of single photons plays an important role in the field of quantum information processing and fluorescence sensing. The method of time-correlated single photon counting is therefore constantly evolving and the associated instrumentation is being improved with new ideas and technologies. Simultaneous, time tagged readout of multiple detector channels is invaluable in many applications, spanning from fluorescence lifetime imaging in biology to the measurement of quantum optical correlations in basic research. Here we present a new integrated design, providing up to three independent input channels, a very short dead time, very high throughput, and a timing resolution of 25 ps at reasonable cost and small size. Apart from design features and test results of the instrument, we show an application in quantum optics, namely, the measurement of the photon statistics of a heralded single photon source based on cavity-enhanced spontaneous parametric down-conversion.

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τ-SPAD: a new red sensitive single-photon counting module

Kell

Bülter

Wahl

et al. 2011

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Differential ECL/CML Synthesis for SiGe BiCMOS

Gustat

Jagdhold

Winkler³

et al. 2008

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High speed multichannel time-correlated single photon counting electronics based on SiGe integrated time-to-digital converters

Wahl

Röhlicke

Rahn

et al. 2013

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Gerald Kell

Scalable time-correlated photon counting system with multiple independent input channels

Integrated multichannel photon timing instrument with very short dead time and high throughput

τ-SPAD: a new red sensitive single-photon counting module

Differential ECL/CML Synthesis for SiGe BiCMOS

High speed multichannel time-correlated single photon counting electronics based on SiGe integrated time-to-digital converters

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