Nguyen Xuan Hai, Pham Ngoc Tuan, Nguyen Nhi Dien, Dang Lanh, Tuong Thi Thu Huong, Pham Dinh Khang
Nuclear Research Institute, Dalat, Vietnam.
Nuclear Research Institute, Dalat, Vietnam; 2Nuclear Training Center, Hanoi, Vietnam.
Nuclear Research Institute, Dalat, Vietnam; 2Nuclear Training Center, Hanoi, Vietnam..
Nuclear Training Center, Hanoi, Vietnam.
DOI: 10.4236/jasmi.2013.33018   PDF    HTML     4,170 Downloads   6,577 Views   Citations

Abstract

The coincidence technique and the coincidence spectroscopy have been developed and applied for over 40 years. Most of popular coincidence measurement systems were based on analog electronics techniques such as time to amplitude conversion (TAC) or logic selecting coincidence unit. The above-mentioned systems are relatively cumbersome and complicated to use. With the strong growth of digital electronics techniques and computational science, the coincidence measurement systems will be constructed simpler but more efficient with the sake of application. This article presents the design principle and signal processing of a simple two-channel coincidence system by a technique of digital signal processing (DSP) using Field Programmable Gate Arrays (FPGA) devices at Nuclear Research Institute (NRI), Dalat.

Keywords

Coincidence Spectrometer; Digital Signal Processing; FPGA

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Conflicts of Interest

The authors declare no conflicts of interest.

References

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