| Revision as of 07:46, 19 August 2011 edit128.211.201.45 (talk)No edit summary← Previous edit | Latest revision as of 19:03, 16 May 2017 edit undoChetvorno (talk | contribs)Extended confirmed users65,424 edits Merged article into Heterodyne | ||
| (20 intermediate revisions by 15 users not shown) | |||
| Line 1: | Line 1: | ||
| #REDIRECT ] {{R from merge}} | |||
| {{Technical|date=June 2011}} | |||
| {{Unreferenced|date=December 2009}} | |||
| '''Heterodyne detection''' is a method of detecting radiation by non-linear mixing with radiation of a reference frequency. It is commonly used in ] and ] for detecting and analysing signals. | |||
| The radiation in question is most commonly either radio waves (see ]) or light (see ] or ]). The reference radiation is known as the ]. The signal and the local oscillator are superimposed at a ]. The mixer, which is commonly a (photo-)], has a non-linear response to the amplitude, that is, at least part of the output is proportional to the square of the input. | |||
| Let the electric field of the generated signal be | |||
| :<math>E_\mathrm{sig} \cos(\omega_\mathrm\mathrm{sig}t+\varphi)\,</math> | |||
| and that of the local oscillator be | |||
| :<math>E_\mathrm{LO} \cos(\omega_\mathrm{LO}t).\,</math> | |||
| For simplicity, assume that the output ''I'' of the detector is proportional to the square of the amplitude: | |||
| :<math>I\propto \left( E_\mathrm{sig}\cos(\omega_\mathrm{sig}t+\varphi) + E_\mathrm{LO}\cos(\omega_\mathrm{LO}t) \right)^2</math> | |||
| :<math> =\frac{E_\mathrm{sig}^2}{2}\left( 1+\cos(2\omega_\mathrm{sig}t+2\varphi) \right)</math> | |||
| ::<math> + \frac{E_\mathrm{LO}^2}{2}(1+\cos(2\omega_\mathrm{LO}t)) </math> | |||
| ::<math> + E_\mathrm{sig}E_\mathrm{LO} \left[ | |||
| \cos((\omega_\mathrm{sig}+\omega_\mathrm{LO})t+\varphi) | |||
| + \cos((\omega_\mathrm{sig}-\omega_\mathrm{LO})t+\varphi) | |||
| \right] | |||
| </math> | |||
| :<math> =\underbrace{\frac{E_\mathrm{sig}^2+E_\mathrm{LO}^2}{2}}_{constant\;component}+\underbrace{\frac{E_\mathrm{sig}^2}{2}\cos(2\omega_\mathrm{sig}t+2\varphi) + \frac{E_\mathrm{LO}^2}{2}\cos(2\omega_\mathrm{LO}t) + E_\mathrm{sig}E_\mathrm{LO} \cos((\omega_\mathrm{sig}+\omega_\mathrm{LO})t+\varphi)}_{high\;frequency\;component}</math> | |||
| ::<math> + \underbrace{E_\mathrm{sig}E_\mathrm{LO} \cos((\omega_\mathrm{sig}-\omega_\mathrm{LO})t+\varphi)}_{beat\;component}. | |||
| </math> | |||
| The output has high frequency (<math>2\omega_\mathrm{sig}</math> and <math>2\omega_\mathrm{LO}</math>) and constant components. In heterodyne detection, the high frequency components and usually the constant components are filtered out, leaving the intermediate (beat) frequency at <math>\omega_\mathrm{sig}-\omega_\mathrm{LO}</math>. The amplitude of this last component is proportional to the amplitude of the signal radiation. With appropriate ] the phase of the signal can be recovered as well. | |||
| ==See also== | |||
| *] | |||
| *] | |||
| *] | |||
| {{DEFAULTSORT:Heterodyne Detection}} | |||
| ] | |||
| ] | |||
| ] | |||
| ] | |||
| ] | |||
Latest revision as of 19:03, 16 May 2017
Redirect to:
- From a merge: This is a redirect from a page that was merged into another page. This redirect was kept in order to preserve the edit history of this page after its content was merged into the content of the target page. Please do not remove the tag that generates this text (unless the need to recreate content on this page has been demonstrated) or delete this page.
- For redirects with substantive page histories that did not result from page merges use {{R with history}} instead.