Role of Resistance in Infrared Detectors

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Discussion Overview

The discussion revolves around the role of resistance in infrared detectors, particularly focusing on the operation of a device constructed with metal pads on a semiconductor material. Participants explore the implications of Ohm's law in this context, the significance of resistance, and the effects of temperature on detector performance.

Discussion Character

  • Exploratory
  • Technical explanation
  • Conceptual clarification
  • Homework-related

Main Points Raised

  • One participant questions whether voltage is applied to one or both metal pads to generate current.
  • Another participant explains Ohm's law and its basic relationship between current, voltage, and resistance, but does not connect it specifically to infrared detectors.
  • A participant expresses understanding of Ohm's law but seeks clarification on its importance in the context of infrared detectors.
  • One participant suggests that voltage is applied between the pads to measure current and calculate resistance, and posits that resistance may depend on infrared radiation.
  • Another participant proposes that a wider range of resistance could enhance sensitivity, allowing for the detection of smaller temperature changes.
  • A link to a Wikipedia page on infrared detectors is provided, mentioning the importance of response time, sensitivity, and the role of thermal noise in photonic detectors.

Areas of Agreement / Disagreement

Participants do not reach a consensus on the specifics of how resistance functions in infrared detectors, and multiple competing views regarding the application of voltage and the implications of resistance remain present.

Contextual Notes

Some assumptions about the relationship between resistance and infrared radiation are not fully explored, and the discussion lacks clarity on how resistance varies with temperature changes in the context of the specific device described.

Who May Find This Useful

This discussion may be of interest to individuals studying electronics, semiconductor physics, or those involved in the design and application of infrared detection technologies.

nichthefish
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Hi, I constructed a device that consists of two metal pads atop a semiconductor material. I'm still confused on the whole Ohms law thing. Infrared radiation strikes the metal, and we're testing it at different temperatures, but I don't know what happens from there. My questions are:

1. Is the voltage applied to one metal pad or both (to generate current?)
2. What is the role of resistance?
3. Not sure if this is too specific, but why is a wider range of resistance good?

I'm not sure if I made any sense, but I would appreciate any kind of help. Thanks!
 
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Ohms law states the relationship between Current, Voltage, and Resistance in an electronic circuit. Specifically I=V/R, which means that the current is equal to the voltage divided by the resistance.

Most of what you are asking is covered in any basic electronics book. I suggest picking one up at any bookstore or from online.
 
Thanks, I understand the actual law, I just don't know its importance in infrared detectors. That's my main question, sorry if I wasn't clear.
 
I'm not familiar with the design you are talking about but my thinking would be..

1) You apply a voltage between the pads and measure the current flowing. From that you calculate the resistance?
2) The resistance depends on the IR radaition?
3) If the amount the resistance varies is large the detector is more sensitive? eg smaller temperature changes can be detected?
 
Here you go...
http://en.wikipedia.org/wiki/Infrared_detector

The response time and sensitivity of photonic detectors can be much higher, but usually these have to be cooled to cut thermal noise. The materials in these are semiconductors with narrow band gaps. Incident IR photons can cause electronic excitations. In photoconductive detectors, the resistivity of the detector element is monitored.

So I suspect my earlier reply is along the right lines.
 

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