Add to ORKGCoincidence counting is a necessary ingredient for quantum optics experiments at the undergraduate level, but cost has created an entry barrier for many schools. We present a design of a coincidence-counting module that replaces the traditional method based on time-to-amplitude conversion and pulse-height analysis. Our module accepts inputs from up to four detectors, has a coincidence-time window of less than 10 ns, and has a throughput of more than triple that of the traditional method. The cost of our coincidence-counting module is less than 5% of the cost of the traditional method
The requirements for multiple-coincidence counting systems with 10{sup -8}- to 10{sup -9}-sec time r...
A Boson sampling device is believed to be a specific quantum computer which is more efficient than i...
A versatile coincidence-anticoincidence circuit in the 50 nsec time range is described capable of be...
We present a multichannel coincidence-counting module for use in quantum optics experiments. The cir...
We report on an electronic coincidence detection circuit for quantum photonic applications implement...
Digital coincidence counting units (CCU) have made experimental verification of fundamental quantum ...
In this study of quantum optics, we want to extract information associated with quantum mechanically...
The electronic detection of the coincidence of two events is still a key ingredient for high-perform...
The increasing complexity of the recent photonic experiments challenges developing efficient multi-c...
A fast coincidence counting system for high-energy particle measurements combines a scintillation co...
Conventional real-time coincidence systems use electronic circuitry to detect coincident pulses (har...
Most systems used in quantum physics experiments require the efficient and simultaneous recording di...
We report testing of the new absolute method of photodetector calibration based on the difference-si...
We demonstrate the operation of a coincidence photon detector with a short timing jitter consisting ...
Coincidence-counting and spontaneous parametric downconversion are central to introductory quantum m...
The requirements for multiple-coincidence counting systems with 10{sup -8}- to 10{sup -9}-sec time r...
A Boson sampling device is believed to be a specific quantum computer which is more efficient than i...
A versatile coincidence-anticoincidence circuit in the 50 nsec time range is described capable of be...
We present a multichannel coincidence-counting module for use in quantum optics experiments. The cir...
We report on an electronic coincidence detection circuit for quantum photonic applications implement...
Digital coincidence counting units (CCU) have made experimental verification of fundamental quantum ...
In this study of quantum optics, we want to extract information associated with quantum mechanically...
The electronic detection of the coincidence of two events is still a key ingredient for high-perform...
The increasing complexity of the recent photonic experiments challenges developing efficient multi-c...
A fast coincidence counting system for high-energy particle measurements combines a scintillation co...
Conventional real-time coincidence systems use electronic circuitry to detect coincident pulses (har...
Most systems used in quantum physics experiments require the efficient and simultaneous recording di...
We report testing of the new absolute method of photodetector calibration based on the difference-si...
We demonstrate the operation of a coincidence photon detector with a short timing jitter consisting ...
Coincidence-counting and spontaneous parametric downconversion are central to introductory quantum m...
The requirements for multiple-coincidence counting systems with 10{sup -8}- to 10{sup -9}-sec time r...
A Boson sampling device is believed to be a specific quantum computer which is more efficient than i...
A versatile coincidence-anticoincidence circuit in the 50 nsec time range is described capable of be...