Spatial frequency response of an optical heterodyne receiver
Abstract
The principles of transfer function analysis are applied to a passive optical heterodyne receiver to obtain the modulation transfer function (MTF). MTF calculations are performed based on an optical platform which is imaging vertically varying profiles at worst case shuttle orbit altitudes. An analysis of the derogatory effects of sampling (aliasing) and central obscurations on both resolution and heterodyne efficiency is given. It is found that the cascading property of MTF analysis must be carefully applied since the coherent transfer function of the optical receiver and that due to the local oscillator-detector combination are not separable but are related by the convolution of their products. Application of these results to the specific case of a space-lab type optical heterodyne receiver shows that resolutions of the order of 1.5-2.0 Km are possible for worst-case type orbital scenarios. Further, comparison of obscured-type receivers (e.g., Cassegrains) with unobscured receivers shows that both resolution and efficiency are severely degraded in an obscured-type receiver and consequently should not be used for a passive heterodyne detection scheme.
- Publication:
-
Heterodyne Systems and Technolology
- Pub Date:
- August 1980
- Bibcode:
- 1980hst..rept..495F
- Keywords:
-
- Heterodyning;
- Modulation Transfer Function;
- Receivers;
- Signal Detection;
- Cassegrain Optics;
- Errors;
- Fourier Transformation;
- Imaging Techniques;
- Oscillators;
- Remote Sensors;
- Signal Mixing;
- Signal To Noise Ratios;
- Spatial Distribution;
- Lasers and Masers