Characterization of Single Photon Counters: Difference between revisions

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==tl;dr wishlist:==
==tl;dr wishlist:==


* Photodiodes (need any 1)
* Photodiodes (need any 1) [[File:Sap500.jpg|frame|SAP series]]
** Laser Components SAP500 (passive)  
** Laser Components SAP500 (passive)  
** Perkin Elmer C30902SH (passive)
** Perkin Elmer C30902SH (passive)
** Perkin Elmer SPCM-AQR-15 (active)
** Perkin Elmer SPCM-AQR-15 (active)
** MPD PD-050-CTD-FC (active)
** MPD PD-050-CTD-FC (active)


==Potential Problems==
==Potential Problems==

Revision as of 07:31, 9 February 2022

Characterization of APDs. (LOOKING FOR TEAM MEMBERS, just add your name to tag along) (Proposed by zhen yuan, feel free tag along/ edit this page to bounce ideas/methodology)

Idea

Count single photons using the photoelectric effect. In simple terms, there is a semiconductor part and an electronics & signal processing part. The semiconductor part is responsible for converting the incident photon into a photoelectron. The electronics are responsible for providing the bias voltage to accelerate the photoelectron to create cascading electrons. The electronics are also needed to measure the current and turn that signal into digital signals for a computer to read.

Updates/Progress/Changelog

  • 8 Feb 2022:
* Fabrication may not be possible with current resources.
* Instead, we will focus on characterizing existing APDs or photodiodes that are available.
* Seems that there exist some possibly faulty or broken setups of APDs, we may look to troubleshoot them.
* Example of APD characterization done by FYP student from CQT: http://www.qolah.org/thesis/thesis_janet.pdf & masters thesis on the same topic http://www.qolah.org/thesis/LimZJ.pdf
* From the PDF, it seems that the avalanche "pulse" can be measured directly. This begs the question: how does the shape of the pulse correlate to the photon counts?
* Problem posed by Christain: How are single photons defined/characterized?

Setup

  • "test" setup:
    • photon source >> laser attenuator >> APD >> ADC >> Raspberry Pi
  • control setup:
    • photon source >> laser attenuator >> "Professional" SPCM >> ADC >> Raspberry Pi

Equipment needed

Semiconductor device:

  • May need a semiconductor fabrication facility with the ability to make thin films on Silicon.
  • A photodiode or APD to see how it performs.

Analogue electronics:

  • Circuit design to convert analogue signal to digital signal.

Prebuild devices/hardware:

  • laser source or photon source
  • laser attenuator
  • computer/Raspberry Pi for data processing
  • Analog to Digital Converter (ADCs)
  • "Professional" grade Single Photon Counting Module (SPCM) to characterize experimental setup.

tl;dr wishlist:

  • Photodiodes (need any 1)
    SAP series
    • Laser Components SAP500 (passive)
    • Perkin Elmer C30902SH (passive)
    • Perkin Elmer SPCM-AQR-15 (active)
    • MPD PD-050-CTD-FC (active)

Potential Problems

  • Dark noise may be overwhelming, so we may need to find a way to suppress it. (I suspect this is why commercial devices cost $2k-5k)
  • Fabrication cost of the custom semiconductor device may be too high or impractical... gg.com (or we just refurbish an LED/solar panel, this will have lower PDE, but maybe we can use electronics to maximise the PDE.)
  • Electronic circuitry costs. (Unlikely to be too costly)