Abstract
Rotating chopper wheels are used to modulate optical radiation in many experimental systems, typically for measuring the frequency response of an optical system. The assumption is often made that the chopped radiation varies sinusoidally. In practice, the radiation may have a square wave profile. This introduces high frequency harmonics that can distort the results of frequency measurements, particularly at low frequencies. Furthermore, the use of chopper wheels with different numbers of slots in order to cover different frequency ranges can introduce further effects. A simple change to the experimental set-up can produce a signal that has an approximately trapezoidal profile. Although not an ideal sine wave, we show that the trapezoidal modulation produces a much smaller error than for square wave modulation. In our case, the measurements are applied to the frequency response of pyroelectric infrared detectors, though the results are applicable to more general measurements on optical systems.
Highlights
It is very common in optical experiments to modulate the radiation source that is being used
If a rotating chopper wheel is positioned so that the optical beam is tightly focussed at the plane of the wheel, the profile of the radiation that is passed by the chopper will be approximately a square wave
The main conclusion that can be drawn from the examination of the effect of the harmonics is that the trapezoidal waveform is much closer than the square waveform to the ideal sinusoidal waveform
Summary
It is very common in optical experiments to modulate the radiation source that is being used. There are a number of reasons for doing this. We may be interested in the frequency response of the system. Noise may be a problem, and the use of modulated radiation, together with lock- in/synchronous amplification can improve the signal-to-noise ratio. The sensing element may respond to the rate of change of radiation, rather than to the absolute level of radiation. We are trying to develop pyroelectric detectors for midwavelength infrared radiation. These detectors produce an output that varies with the rate of change of the incident radiation, so it is essential that the radiation is modulated
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